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Effect of Adding Vasopressin on Cardiac Output, Blood Pressure, Diuresis, and Tissue Perfusion Indices in Patients With Septic Shock (VASO-PHENO)

2026년 7월 6일 업데이트: Assistance Publique - Hôpitaux de Paris

In patients with septic shock, vasopressin is increasingly used in combination with norepinephrine, but its timing of initiation remains heterogeneous and its clinical hemodynamic effects are still insufficiently characterized. Available data suggest variable responses, which may depend on the hemodynamic phenotype at the time of treatment initiation. In particular, the effects of vasopressin may differ according to the presence of preload dependency, baseline cardiac output, impaired systolic function, or baseline diastolic arterial pressure, reflecting the degree of vasoplegia. In this context, the VASO-PHENO study aims to provide a detailed and dynamic description of the early hemodynamic and clinical effects of vasopressin initiation in septic shock.

To date, no clinical study has systematically and dynamically evaluated the effects of vasopressin on central and peripheral hemodynamic parameters according to the hemodynamic profile at the time of its initiation. Describing these effects appears essential to better understand the variability in clinical responses and to contribute to a more rational and personalized approach to vasopressor escalation in septic shock.

연구 개요

상태

아직 모집하지 않음

상세 설명

In patients with septic shock, hemodynamic profiles are highly heterogeneous. From a pathophysiological perspective, three main hemodynamic phenotypic components may contribute to the septic shock state:

  • preload dependency;
  • impaired myocardial function, leading to a cardiac output that is inadequate to meet oxygen demand;
  • vasoplegia.

In some of these contexts, the introduction of vasopressin, as a pure vasoconstrictor, may be inappropriate or even harmful, by impairing cardiac output or exposing the patient to excessive vasoconstriction and a subsequent risk of ischemia.

Thus:

  • In the presence of impaired myocardial function, defined by reduced cardiac output and/or impaired left ventricular ejection fraction, vasopressin initiation may lead to a decrease in cardiac output;
  • In the presence of vasoplegia, the effects of vasopressin on mean arterial pressure and microcirculatory indices, such as capillary refill time, mottling, and urine output, may vary according to the severity of the initial vasoplegia, notably reflected by diastolic arterial pressure;
  • In the presence of persistent preload dependency, the initiation of a pure vasoconstrictor may either increase cardiac output by increasing venous return, or worsen microcirculatory alterations by enhancing vasoconstriction in a context of hypovolemia.

To date, no study has precisely described the effects of vasopressin on macrocirculatory hemodynamic parameters, including arterial pressure, cardiac output, and central venous pressure, and on routinely assessable microcirculatory parameters, including capillary refill time, mottling, and urine output, according to the different hemodynamic phenotypic components present at the time of vasopressin initiation.

Describing the evolution of these parameters appears essential to better understand the variability in clinical responses and associated outcomes. Such an approach could help identify at-risk profiles and provide objective elements to support a more rational and personalized escalation of vasopressor therapy in septic shock.

연구 유형

관찰

등록 (추정된)

200

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연구 연락처

연구 연락처 백업

연구 장소

참여기준

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아니

샘플링 방법

비확률 샘플

연구 인구

Adult patients hospitalized in the intensive care unit for septic shock and with use of vasopressin

설명

Inclusion Criteria:

  • Age ≥ 18 years;
  • Hospitalized in an intensive care unit;
  • Presenting with septic shock according to Sepsis-3 criteria;
  • For whom the treating clinician wishes to initiate vasopressin as second-line therapy as part of routine care;
  • Undergoing hemodynamic monitoring with a PiCCO2 device (Pulsion Medical Systems, Getinge, Feldkirchen, Germany) or pulmonary artery catheterization as part of routine care.

Exclusion Criteria:

  • Patient already receiving vasopressin;
  • Pregnancy;
  • Patient under legal protection;
  • Patient unwilling to participate in the study.

공부 계획

이 섹션에서는 연구 설계 방법과 연구가 측정하는 내용을 포함하여 연구 계획에 대한 세부 정보를 제공합니다.

연구는 어떻게 설계됩니까?

디자인 세부사항

연구는 무엇을 측정합니까?

주요 결과 측정

결과 측정
측정값 설명
기간
To describe and compare the evolution of cardiac index between inclusion and 20 minutes after vasopressin initiation in patients with septic shock, according to hemodynamic profiles identified a posteriori from variables collected at the time of vasopre
기간: T0 = inclusion. T20 = 20 minutes after the introduction of the vasopressin

Hemodynamic profiles will not be defined a priori. They will be identified a posteriori using a supervised clustering analysis based on variables measured at inclusion and selected for their pathophysiological relevance:

  • presence of preload dependency at the time of vasopressin initiation (yes/no);
  • cardiac index at inclusion;
  • diastolic arterial pressure at inclusion;
  • left ventricular ejection fraction (LVEF).
T0 = inclusion. T20 = 20 minutes after the introduction of the vasopressin

2차 결과 측정

결과 측정
측정값 설명
기간
To describe the evolution of cardiac index between inclusion (T0), T1h, T3h, and T24h after vasopressin initiation
기간: T0 = inclusion, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin

Secondary objectives will be analyzed in the overall population and, for descriptive purposes, according to the hemodynamic profiles identified by clustering analysis and according to age at inclusion. Hemodynamic profiles will not be defined a priori. They will be identified a posteriori using a supervised clustering analysis based on variables measured at inclusion and selected for their pathophysiological relevance:

  • presence of preload dependency at the time of vasopressin initiation (yes/no);
  • cardiac index at inclusion;
  • diastolic arterial pressure at inclusion;
  • left ventricular ejection fraction (LVEF).
T0 = inclusion, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
Change in mean arterial pressure after vasopressin initiation
기간: T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
Mean arterial pressure will be measured at inclusion before vasopressin initiation and at predefined time points after vasopressin initiation. The evolution of mean arterial pressure will be described in the overall population.
T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
In patients monitored with a Swan-Ganz® pulmonary artery catheter: to describe the evolution of pulmonary artery occlusion pressure between inclusion (T0), T20, T1h, T3h, and T24h after vasopressin initiation3.
기간: T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin

PAPO will be assessed with a standard occlusion of the ballon in the pulmonary arteries with the use of the Swan Ganz. Secondary objectives will be analyzed in the overall population and, for descriptive purposes, according to the hemodynamic profiles identified by clustering analysis and according to age at inclusion. Hemodynamic profiles will not be defined a priori. They will be identified a posteriori using a supervised clustering analysis based on variables measured at inclusion and selected for their pathophysiological relevance:

  • presence of preload dependency at the time of vasopressin initiation (yes/no);
  • cardiac index at inclusion;
  • diastolic arterial pressure at inclusion;
  • left ventricular ejection fraction (LVEF).
T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
In patients monitored with a transpulmonary thermodilution device combined with pulse contour analysis (PiCCO®): to describe the evolution of indexed extravascular lung water between inclusion (T0), T20, T1h, T3h, and T24h after vasopressin initiation
기간: T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin

The indexed extravascular lung water will be assessed with a standard thermodilution in patients with PICCO. Hemodynamic profiles will not be defined a priori. They will be identified a posteriori using a supervised clustering analysis based on variables measured at inclusion and selected for their pathophysiological relevance:

  • presence of preload dependency at the time of vasopressin initiation (yes/no);
  • cardiac index at inclusion;
  • diastolic arterial pressure at inclusion;
  • left ventricular ejection fraction (LVEF).
T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
To describe the evolution of mean arterial pressure between inclusion (T0), T20, T1h, T3h, and T24h after vasopressin initiation, according to diastolic arterial pressure at inclusion.
기간: T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin

Secondary objectives will be analyzed in the overall population and, for descriptive purposes, according to the hemodynamic profiles identified by clustering analysis and according to age at inclusion. Hemodynamic profiles will not be defined a priori. They will be identified a posteriori using a supervised clustering analysis based on variables measured at inclusion and selected for their pathophysiological relevance:

  • presence of preload dependency at the time of vasopressin initiation (yes/no);
  • cardiac index at inclusion;
  • diastolic arterial pressure at inclusion;
  • left ventricular ejection fraction (LVEF).
T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
Change in urine output during the first 24 hours after vasopressin initiation
기간: Urine output will be assessed every 2 hours from the introduction of vasopressine (T0) to 24 hours after the introduction of the vasopressine (T24)
Urine output will be collected every 2 hours during the first 24 hours after vasopressin initiation. The evolution of urine output will be described in the overall population.
Urine output will be assessed every 2 hours from the introduction of vasopressine (T0) to 24 hours after the introduction of the vasopressine (T24)
Change in capillary refill time after vasopressin initiation
기간: T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
Capillary refill time will be assessed at baseline and at predefined time points after vasopressin initiation using a standardized method. The evolution of capillary refill time will be described in the overall population.
T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
To describe the evolution of the mottling between the introduction of vasopressin (T0), T20, T1h, T3h, and T24h after vasopressin initiation, according to the evolution of the mean arterial pressure, diastolic arterial pressure, and of the cardiac output
기간: T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
Mottling will be assessed in a standardized way, by the mottling score. The mottling score describe the intensy of the mottling, from 0 (no mottling) to 5 (mottling up to the abdominal skin)
T0 = inclusion, T20 = 20 minutes after the introduciton of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
To describe the evolution of arterial lactate between the introduction of vasopressin (T0), T20, T1h, T3h and T24h after vasopressin initiation, according to the evolution of the mean arterial pressure, diastolic arterial pressure and cardiac output
기간: T0 = inclusion, T20 = 20 minutes after the introduction of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
Arterial lactate will be assessed by a arterial blood gaz sample, if available at this different time point.
T0 = inclusion, T20 = 20 minutes after the introduction of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
To describe the evolution of the cardiac output between the introduction of vasopressin (T0), T20, T1H, T3h and T24h after vasopressin initiation, according to the initial left ventricular ejection fraction.
기간: T0 = inclusion, T20 = 20 minutes after the introduction of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin
Cardiac output will be assessed with PICCO2 device or pulmonary artery catheterization. Left ventricular ejection fraction will be asssessed before adminstration of the vasopressin.
T0 = inclusion, T20 = 20 minutes after the introduction of the vasopressin, T1h = 1 hour after the introduction of the vasopressin, T3h = 3 hours after the introduction of the vasopressin. T24h = 24 hours after the introduction of the vasopressin

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연구 기록 날짜

이 날짜는 ClinicalTrials.gov에 대한 연구 기록 및 요약 결과 제출의 진행 상황을 추적합니다. 연구 기록 및 보고된 결과는 공개 웹사이트에 게시되기 전에 특정 품질 관리 기준을 충족하는지 확인하기 위해 국립 의학 도서관(NLM)에서 검토합니다.

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2026년 8월 1일

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2029년 9월 1일

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2029년 9월 1일

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