deltatrials
Recruiting INTERVENTIONAL NCT05958342

CAlcium and VAsopressin Following Injury Early Resuscitation (CAVALIER) Trial (CAVALIER)

Sponsor: Jason Sperry

Updated 16 times since 2023 Last updated: Apr 9, 2026 Started: Jun 30, 2024 Primary completion: Mar 1, 2027 Completion: Mar 1, 2028
This information is for research purposes only and is not medical advice. Consult a healthcare provider before making any medical decision.

This observational or N/A phase trial investigates Hemorrhage and Trauma and is currently actively recruiting participants. Jason Sperry leads this study, which shows 16 recorded versions since 2024 — indicating substantial longitudinal coverage. The change history captured here reflects the iterative nature of clinical trial conduct.

Study Description(click to expand)

Resuscitation strategies for the acutely injured patient in hemorrhagic shock have evolved. Patients benefit from receiving less crystalloid in favor of blood transfusions with balanced ratios of plasma and platelets or whole blood resuscitation. These resuscitation practices are termed Damage Control Resuscitation and have been incorporated into resuscitation protocols in Level I trauma centers across the country. Damage Control Resuscitation represents standard practice for military and civilian trauma. Despite these changes, deaths from traumatic hemorrhage continue to occur in the first hours following trauma center arrival, underscoring the importance of early, novel interventions. Hypocalcemia following traumatic injury is exceedingly common following severe traumatic injury in patients at risk of hemorrhagic shock. During hemorrhagic shock resuscitation, pathways reliant upon calcium such as platelet function, intrinsic and extrinsic hemostasis, and cardiac contractility are disrupted. Citrate containing transfusion products are known to further reduce calcium levels through chelation during trauma resuscitation. Hypocalcemia has consistently been shown to be independently associated with the risk of large volume blood transfusion and mortality. Current management practices include calcium replacement during the in hospital phase of care in patients receiving blood products. Early calcium replacement in patients at risk of hemorrhage and hypocalcemia may mitigate coagulopathy, maintain...

Resuscitation strategies for the acutely injured patient in hemorrhagic shock have evolved. Patients benefit from receiving less crystalloid in favor of blood transfusions with balanced ratios of plasma and platelets or whole blood resuscitation. These resuscitation practices are termed Damage Control Resuscitation and have been incorporated into resuscitation protocols in Level I trauma centers across the country. Damage Control Resuscitation represents standard practice for military and civilian trauma. Despite these changes, deaths from traumatic hemorrhage continue to occur in the first hours following trauma center arrival, underscoring the importance of early, novel interventions.

Hypocalcemia following traumatic injury is exceedingly common following severe traumatic injury in patients at risk of hemorrhagic shock. During hemorrhagic shock resuscitation, pathways reliant upon calcium such as platelet function, intrinsic and extrinsic hemostasis, and cardiac contractility are disrupted. Citrate containing transfusion products are known to further reduce calcium levels through chelation during trauma resuscitation. Hypocalcemia has consistently been shown to be independently associated with the risk of large volume blood transfusion and mortality. Current management practices include calcium replacement during the in hospital phase of care in patients receiving blood products. Early calcium replacement in patients at risk of hemorrhage and hypocalcemia may mitigate coagulopathy, maintain hemostasis, improve hemodynamics and outcomes, and may reduce complications attributable to hemorrhagic shock.

Arginine vasopressin is a physiologic hormone released by the posterior pituitary in response to hypotension and is commonly used as a vasopressor for critically ill patients for the treatment of hypotension due to multiple causes including sepsis. Prolonged hemorrhagic shock has the potential to alter systemic vasomotor tone which can progress to refractory/recalcitrant hypotension. Patients receiving resuscitation for hemorrhage are at risk of vasopressin deficiency. Vasopressin may improve hemostasis by enhancing platelet function and augmenting clot formation. Vasopressin infusion soon after injury in patients in hemorrhagic shock has been demonstrated to be safe and result in a reduction in blood transfusion requirements and a lower incidence of deep venous thrombosis.

Whole blood, red cells, and blood components are a precious and limited resource. Trauma resuscitation adjuncts such as early calcium and vasopressin may provide benefit when transfusion products are limited and may provide additional benefit even when transfusion capabilities remain robust. Due to their action on coagulation and hemodynamic cascades in the injured patient, these resuscitation adjuncts have the potential to interact and provide additive benefit to the injured patient. However, safety and efficacy of prehospital calcium and early in hospital vasopressin remain inadequately characterized. Enrolled patients may participate in the prehospital phase (calcium), in-hospital phase (vasopressin), or both. The aims of the CAlcium and VAsopressin following Injury Early Resuscitation (CAVALIER) trial are to determine the efficacy and safety of prehospital calcium supplementation and early in hospital vasopressin infusion as compared to standard care resuscitation in patients at risk of hemorrhagic shock and to appropriately characterize any additive effect of both resuscitation adjunct interventions.

Status Flow

~Aug 2023 – ~Feb 2024 · 6 months · monthly snapshotNot Yet Recruiting~Feb 2024 – ~May 2024 · 3 months · monthly snapshotNot Yet Recruiting~May 2024 – ~Jul 2024 · 2 months · monthly snapshot~Jul 2024 – ~Aug 2024 · 31 days · monthly snapshot~Aug 2024 – ~Sep 2024 · 31 days · monthly snapshot~Sep 2024 – ~Jan 2025 · 4 months · monthly snapshotRecruiting~Jan 2025 – ~Feb 2025 · 31 days · monthly snapshot~Feb 2025 – ~Jul 2025 · 5 months · monthly snapshotRecruiting~Jul 2025 – ~Aug 2025 · 31 days · monthly snapshot~Aug 2025 – ~Sep 2025 · 31 days · monthly snapshot~Sep 2025 – ~Oct 2025 · 30 days · monthly snapshot~Oct 2025 – ~Nov 2025 · 31 days · monthly snapshot~Nov 2025 – ~Jan 2026 · 2 months · monthly snapshot~Jan 2026 – ~Feb 2026 · 31 days · monthly snapshot~Feb 2026 – ~Apr 2026 · 2 months · monthly snapshotApr 16, 2026 – present · 3 months · daily APIRecruiting

Change History

16 versions recorded
  1. Apr 16, 2026 — Present [daily]

    Recruiting

    Phase: PHASE2None

  2. Feb 2026 — Apr 2026 [monthly]

    Recruiting PHASE2

  3. Jan 2026 — Feb 2026 [monthly]

    Recruiting PHASE2

  4. Nov 2025 — Jan 2026 [monthly]

    Recruiting PHASE2

  5. Oct 2025 — Nov 2025 [monthly]

    Recruiting PHASE2

Show 11 earlier versions
  1. Sep 2025 — Oct 2025 [monthly]

    Recruiting PHASE2

  2. Aug 2025 — Sep 2025 [monthly]

    Recruiting PHASE2

  3. Jul 2025 — Aug 2025 [monthly]

    Recruiting PHASE2

  4. Feb 2025 — Jul 2025 [monthly]

    Recruiting PHASE2

  5. Jan 2025 — Feb 2025 [monthly]

    Recruiting PHASE2

  6. Sep 2024 — Jan 2025 [monthly]

    Recruiting PHASE2

  7. Aug 2024 — Sep 2024 [monthly]

    Recruiting PHASE2

  8. Jul 2024 — Aug 2024 [monthly]

    Recruiting PHASE2

    Status: Not Yet RecruitingRecruiting

  9. May 2024 — Jul 2024 [monthly]

    Not Yet Recruiting PHASE2

  10. Feb 2024 — May 2024 [monthly]

    Not Yet Recruiting PHASE2

  11. Aug 2023 — Feb 2024 [monthly]

    Not Yet Recruiting PHASE2

    First recorded

Eligibility Summary

The CAlcium and VAsopressin following Injury Early Resuscitation (CAVALIER) Trial is a proposed 4 year, double-blind, mutli-center, prehospital and early in hospital phase randomized trial designed to determine the efficacy and safety of prehospital calcium and early in hospital vasopressin in patients at risk of hemorrhagic shock.

Contact Information

Sponsor contact:
  • Jason Sperry
  • United States Department of Defense
Data source: ClinicalTrials.gov

For direct contact, visit the study record on ClinicalTrials.gov .