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Related Concept Videos

Bone Marrow Sampling and Transplants01:22

Bone Marrow Sampling and Transplants

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Bone marrow transplant is a potential cure for several diseases, including cancer and specific genetic disorders. Notably, this procedure is applicable for patients suffering from aplastic anemia, certain types of leukemia, severe combined immunodeficiency disease (SCID), Hodgkin's disease, non-Hodgkin's lymphoma, multiple myeloma, thalassemia, sickle-cell disease, and certain cancers.
The transplant begins with high doses of chemotherapy and radiation treatment, which aim to destroy...
345

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Related Experiment Video

Updated: Jul 14, 2025

Calvarial Model of Bone Augmentation in Rabbit for Assessment of Bone Growth and Neovascularization in Bone Substitution Materials
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Robotic calvarial bone sampling.

Thomas Wojcik1, Marta Morawska2, Joël Ferri1

  • 1Univ. Lille, CHU Lille, INSERM, Oral and Maxillo-Facial Surgery Department, U1008 - Advanced Drug Delivery Systems, F-59000, Lille, France.

Journal of Cranio-Maxillo-Facial Surgery : Official Publication of the European Association for Cranio-Maxillo-Facial Surgery
|October 8, 2023
PubMed
Summary

Complex unicortical calvarial harvesting using the Cold Ablation Robot-Guided Laser Osteotome (CARLO® primo+) is feasible and safe in cadavers. This robotic laser approach shows potential to improve surgical accuracy and reduce human error in bone harvesting procedures.

Keywords:
Bone transplantationComputer-assistedLasersRobotic surgical procedureSkull

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Area of Science:

  • Neurosurgery
  • Surgical Robotics
  • Biomedical Engineering

Background:

  • Calvarial bone harvesting is crucial for reconstructive surgery.
  • Current techniques can involve inaccuracies and risks.
  • Advancements in robotic surgery offer potential for improved precision.

Purpose of the Study:

  • To assess the feasibility and safety of complex unicortical calvarial harvesting using the CARLO® primo+ robot-guided laser system.
  • To evaluate the accuracy, precision, and potential risks associated with this novel robotic approach.

Main Methods:

  • A cadaveric study was conducted involving progressive complexity of bone harvesting from the cranial vault.
  • The Cold Ablation Robot-Guided Laser Osteotome (CARLO® primo+) was utilized for unicortical bone cutting.
  • Key parameters evaluated included tracking precision, harvesting strategies, settings, duration, cutting accuracy, and risk of dura exposure.

Main Results:

  • Complex unicortical calvarial harvesting with CARLO® primo+ was demonstrated to be feasible.
  • No bicortical cutting occurred during the robotic laser procedures.
  • One instance of partial dura exposure was noted due to improper angulation of the osteotome.

Conclusions:

  • Robot-guided laser osteotomy appears to be a feasible and safe method for complex unicortical calvarial harvesting.
  • This technology has the potential to enhance surgical accuracy and minimize intraoperative variability compared to traditional methods.
  • Future robotic approaches may supersede current techniques involving cutting guides in bone harvesting procedures.