Surgical Simulation Models

An unparalleled training experience (Physical Flow models + Virtual Simulation Exercises Integrated)

Our Simulator Models

Neurovascular Microvascular Spinal Disorder Neuro-Oncology Fundamental Training
• Neurovascular • Microvascular • Spinal Disorder • Neuro-Oncology • Fundamental Training

Neurovascular

NeuraBubbleTM - Patient-specific Aneurysm Clipping Surgery Models

NeuraBubbleTM, a model for open micro surgical intracranial aneurysm clipping offers an experience for neurovascular surgeons to practice procedures with absolute realism.

Our model recreates patient-specific brain anatomy, aneurysm formations, intricate blood vessels and all other required micro-anatomical structures.

With NeuraBubbleTM, surgeons can immerse themselves in lifelike surgical scenarios, practicing aneurysm clips on diverse patient models with varied levels of complexity and difficulties.

Simulation Models | Surgeons Lab

Model for all Pathologies

basilar-artery

ACom

ica

ICA

mca

MCA

pcom

PCom and other posterior circulation artery aneursyms

ophthalmic

Ophthalmic

Clips/Implant

we offer comprehensive range of virtual and physical clip for aneurysm clipping, featuring diverse clip patterns and appliers


With over 500 temporary and permanent clip types, neurosurgeons can engage in dynamic training sessions using our innovative technology

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Complexity Management

Experience ruptured aneurysm cases with the model


Hands-on practice for better handling of critical situations


Immerse in life-like scenarios to enhance skills and confidence

Compatibility (ICG Angiography)

Surgery training with our model featuring live Indocyanine Green (ICG Angiography) visualization. With a simple click in the Simulator software (SurgViewTM), trainees gain instant access to real-time ICG flow, empowering precise aneurysm interventions and skill refinement

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Difficulty level

1-9 danger_icon

Based on aneurysm size and location

Re-usability



Model usage

upto20 times

to train in a live simulation
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Suitable for Young Trainees to Advanced Surgeons

Gain hands-on experience in surgical simulation, immersing yourself in realistic scenarios to enhance precision and bolster confidence in every action. Conduct clinical assessments utilizing authentic patient images and manage cases involving ruptured and unruptured intracranial aneurysm models.


Explore diverse cranial approaches and master techniques for handling rare cases that may not have been encountered previously

Our upcoming releases will include other training models for procedures like AVM (Arteriovenous malformation) and other Neurovascular pathologies

Microvascular

NeuraPassTM - Micro-Anastomosis Training Model

NeuraPassTM is the pinnacle microvascular anastomosis microsurgical skill acquisition model designed to elevate the proficiency of microsurgeons across disciplines.This meticulously crafted and clinically engineered model offers a platform for refining micro-hand movements, enhancing dexterity, and honing the precise handling of microsurgical tools and suturing needles.

Vessel Diameter

from 0.4 mm - 1.5 mm
Unlike traditional ex-vivo specimens and silicon tubes, NeuraPassTM provides an immersive experience closely mirroring clinical scenarios. Tailored to replicate vessel properties, diameters, complexities, and microsurgical field relevance, it offers a range of variations and model types. These encompass diverse vessel depths, numbers, diameters, and types of parent and donor vessels.




NeuraPassTM seamlessly integrates with SurgTrainTM, a high-fidelity simulator, or can be utilized in SurgeonsLab’s Bench-top simulator with pulsatile blood-flow and ICG Angiography. This versatility allows surgeons to confidently simulate different cases and scenarios, maintain optimal blood pressure levels, and master intricate microstructures.

Training Model Type

Side - Side
Side - End
End - End
Order Models Now

Vessel

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STA (1,2) and MCA (3) vessels , along with narrow key hole sizes and bone (4) texture to provide a life-like experience.

Varied Operating Depth

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Various complexity of model's features gives a wide similarity to real life training simulation

Table-top task trainer

Accessibility-Portable and easily accessible solution for surgeons

Practice anytime, anywhere, enhancing convenience and accessibility

Plug and replace models easily with a single click on the table-top trainer

Repeatable Practice

Practice anytime, anywhere, enhancing convenience and accessibility

Plug and replace models easily with a single click on the table-top trainer

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Focused Training

Allows concentrated improvement in areas of weakness

Versatility

Adaptable to various specialities and clinical scenarios

Cost-effective

Budget-friendly option for trainees with economic constraints for opting for high-fidelity simulators

Provides high-quality simulation at an affordable price

Suitable for

Cerebrovascular-Neurosurgeons

Cerebrovascular Neurosurgeons

Open-Microsrgeons

Open Microsurgeons

Lymphatic-Surgeon

Lymphatic Surgeon

Cerebrovascular-Neurosurgeons

Plastic and Cosmetic Surgeons

Skills and Benefits

you obtain from neurovascular simulation models

Videos for more information

from real world simulator use

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NeuraSpineTM

Spine Model

NeuraSpine

Select the model you
want to know more about

Select Approaches

Complete Solutions for Spine Surgery Training

Select Approaches 2

Complete Solutions for Spine Surgery Training 2

Select Approaches 3

Complete Solutions for Spine Surgery Training 3

Pathology Types

Disc Herniation

Stenosis

Complex Stenosis

Extraforaminal

Traumatic and Sports Medicine model

Anotomy Included

Specific Details

Cervical

Levels C3-C7 Superior Level - Disposable
Bleeding skin and subcutaneous tissue
Platysma, Connective tissues, Sternocleidomastoid muscle
Trachea and esophagus (medial mass) Pulsating Carotid Artery
Inferior Level - Disposable Prevertebral fascia
Paravertebral muscles Vertebral bodies and discs
from C3 to C7 Spinal cord Peridural fat

Thoracic

Levels L1-S1
Superior Level - Reusable
Dissected Skin and subcutaneous tissue
Dissected paravertebral muscles
Inferior Level - Disposable
Vertebras from from L1 to S1
Ligaments Cauda equina and lumbar nerve roots
Peridural fat
Lumbar discs with herniations

Instruments

Spinal Set

Compatible with all spinal instruments

Our innovative technology ensures seamless integration with a wide range of spinal instruments, offering surgeons unparalleled precision and flexibility in their procedures. Flexible to choose the solution that's compatible with your expertise.

HARVEY JACKSON Retractor
KERRISON Bone Punch
Scalpel
ECHLIN Bone Rongeur
LANGENBECK Rib Raspatory
Bone nibbler
CASPAR Retractor
ROETTGEN-RUSKIN Bone Rongeur
High speed drill

Videos for more information

from real world simulator use

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Neuro-Oncology

NeuraOncoTM : Patient-specific tumor resection and training model

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NeuraOnco™, a model for open and minimally invasive tumor resection procedures, offers absolute realism for skull-based meningioma and glioma procedures, allowing practice with perfusion and fluorescence imaging. Our model recreates patient-specific brain anatomy, microanatomical structures, anatomical landmarks, and all required arterial and venous circulation close to the pathology. With NeuraOncoTM, surgeons can immerse themselves in lifelike surgical scenarios and tumor treatment procedures. From fundamental exposure to advanced creation of multiple complex scenarios, surgeons can access various levels of complexity and difficulty using this model.

Model for all Tumors

basilar-artery

Low Grade Glioma

mca

Pituitary High Grade and Low Grade

pcom

High Grade Glioma

ophthalmic

Meningioma

Use real instruments

Tumor Instrumental set

Illuminating Tumors: Perfuse, Fluorescence, Resection

Advanced visualization for optimal resections, refined decision-making, and improved patient outcomes.

Compatibility

The simulation software SurgViewTM and Integration with ICG visualization empower trainees to see key features in real-time, enhancing decision-making, microsurgical skills, and surgical confidence.

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Complexity Management

Dissect intricate tumors, navigate diverse scenarios, and refine microsurgical techniques in a mixed-reality environment.


Videos for more information

from real world simulator use

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Fundamental Training

Craniotomy

NeuroTomyTM offers Visualization and interaction with detailed skull structures in a safe, Physical, and Virtual environment, solidifying your understanding of functional pathways. Rehearse complex surgeries repeatedly, honing your hand-eye coordination and refining your microsurgical techniques.

Procedures we offer

Getting Started with Positioning the NSTS Head
Creating Basic Burr Holes
Cannulating The Ventricle
Turning A Basic Flap
ICP-Bolt Placement
Bone Flap Fixation

To know more about our custom models contact us through info@surgeonslab.com

Frequently asked questions

These are the most commonly asked questions. can't find what you are looking for use our chatbot.

  • How do patient-specific models differ from standard simulation models?

    Patient-specific models replicate individual brain anatomy and blood vessels using actual patient data, offering maximum fidelity surgical simulations. Standard models provide generalized anatomical structures for broader training applications. Patient-specific models enhance surgical simulation by allowing practice on unique anatomical variations, which is crucial for Neuro-Oncology surgeries.

  • Can these simulation models be used for training on new medical devices or tools?

    SurgeonsLab's simulation models are compatible with various surgical instruments, including Cardiovascular Angioplasty devices and suturing needles. This compatibility enables practical training on new medical devices within a realistic surgical simulator environment, facilitating the adoption of innovative tools in clinical practice.

  • What types of neurosurgical procedures can be simulated using SurgeonsLab models?

    SurgeonsLab models support a range of neurosurgical procedures, including aneurysm clipping, tumor resections, and spine surgery training. These models provide a realistic surgical simulation platform, allowing practitioners to hone their skills in various complex neurosurgical interventions.

  • Can the simulation models be customized for specific patient anatomies?

    Absolutely. SurgeonsLab offers customization of simulation models to match specific patient anatomies, enhancing the realism and relevance of surgical simulation. This customization is particularly beneficial for planning and practicing complex procedures in Neuro-Oncology and other specialized fields.

  • What types of surgical procedures can be practiced using these models?

    The models facilitate practice in various surgical procedures, including vascular interventions, tumor resections, and spinal surgeries. They provide a comprehensive surgical simulation environment, enabling trainees to develop proficiency in multiple surgical disciplines using appropriate surgical instruments and techniques.

  • How does SurgeonsLab ensure the realism and safety of its simulation models?

    SurgeonsLab ensures realism by incorporating silicone vessels and patient-specific brain anatomy into their models. Safety is maintained through rigorous testing and the use of high-quality materials, providing a safe and effective surgical simulation experience for trainees.

  • How does the surgical simulation software enhance training in brain anatomy and related procedures?

    The surgical simulation software offers interactive modules focusing on brain anatomy, allowing trainees to visualize and manipulate anatomical structures. Features like ICG Angiography simulation and real-time feedback enhance the learning experience, making it an effective tool for mastering complex neurosurgical procedures.

  • What surgical simulation models are offered for Neuro-Oncology procedures?

    For Neuro-Oncology, SurgeonsLab provides models replicating tumor pathology within the brain's intricate anatomy. These models allow for realistic practice of tumor resections and related procedures, utilizing surgical instruments and techniques specific to Neuro-Oncology.

  • Which anatomical features are accurately represented in the simulation models?

    Using advanced materials like silicone vessels, SurgeonsLab's simulation models replicate detailed brain anatomy and intricate blood vessels. These surgical simulation models are crafted for maximum fidelity surgical simulations, allowing users to explore complex neurovascular structures, which are essential in training for neuro-oncology, cerebrovascular procedures, and related specialties.

  • How does the integration of surgical simulation software enhance training outcomes?

    Surgical simulation software enhances realism by integrating dynamic modules focused on brain anatomy, blood vessels, and procedure-specific workflows. It supports ICG Angiography visualization and real-time feedback, optimizing surgical simulator sessions and helping learners refine their skills with virtual and physical models across various specialties, including Neuro-Oncology.

  • What types of surgical procedures can be practiced using these simulation models?

    The models support a broad range of procedures such as aneurysm clipping, tumor resection for Neuro-Oncology, vascular repairs using cardiovascular angioplasty devices, and spinal decompression. These surgical simulation models are compatible with microsurgical instruments, making them ideal for realistic and high-fidelity general and specialized neurosurgery training.

  • How do physical flow models contribute to the simulation experience?

    Physical flow models simulate dynamic blood flow through silicone vessels, mirroring real circulatory behavior. This integration heightens the realism of surgical simulation by enabling trainees to visualize responses to interventions like ICG Angiography, which is crucial for practicing procedures involving delicate blood vessels in Neuro-ecology and vascular surgery.

  • Can the models simulate the use of microsurgical tools and suturing needles?

    The models are designed to support the use of microsurgical instruments and suturing needles. This allows for realistic practice of fine surgical techniques essential in brain surgery, spine surgery training, and lymphatic surgeon procedures. These tools reinforce maximum fidelity in surgical simulation experiences.

  • Are there specific models for spine surgery training?

    Yes, SurgeonsLab offers simulation models specifically designed for spine surgery training. These models accommodate spinal instruments and replicate spinal anatomy, allowing realistic practice of decompression, fusion, and other procedures. Their high compatibility with surgical simulators makes them essential for comprehensive training in spinal interventions.

  • How is ICG Angiography utilized within the simulation models?

    ICG Angiography is integrated into the simulation models to visualize blood flow in real time through silicone vessels. This function is handy for practicing vascular surgeries and tumor resections in Neuro-Oncology. Visualizing vessel patency during surgical simulation enhances the learning experience.

  • What customization options are available for simulation models to reflect specific patient anatomies?

    SurgeonsLab offers customization based on patient imaging to replicate unique anatomical structures in the brain, spine, and vascular system. These patient-specific models enable maximum fidelity surgical simulations, providing targeted training in complex procedures like Neuro-Oncology and vascular repair using cardiovascular angioplasty devices.

  • What is included in the purchase of a simulation model?

    The purchase typically includes the physical surgical simulation model featuring detailed brain anatomy, blood vessels, and silicone vessels. Depending on the configuration, it may also include components for ICG Angiography and compatibility with spinal instruments or cardiovascular angioplasty devices, supporting a complete surgical simulator experience across specialties like Neuro-ecology and spine surgery training.

  • Do prices include both physical models and virtual simulation software?

    Usually, pricing covers the surgical simulation model and the accompanying surgical simulation software. This integration ensures a complete training package with maximum fidelity surgical simulations, enabling learners to explore procedures involving brain anatomy, blood vessels, and suturing needles using a combined physical and virtual approach.

  • Are there any additional costs for customization or patient-specific models?

    Custom models that reflect patient-specific brain anatomy or pathology may incur additional costs. These models are tailored for high-precision surgical simulation, especially in Neuro-Oncology and lymphatic surgeon training. They allow the use of specialized instruments and enhance realism in complex scenarios.

  • Are there any maintenance or servicing costs associated with the simulation models?

    Maintenance costs are minimal but may apply based on usage. Replacing worn silicone vessels or recalibrating ICG Angiography components could require occasional servicing. These models are designed for durability under repeated use with surgical instruments, ensuring sustained simulation training efficiency.

  • Are there any subscription or licensing fees for the simulation software?

    The surgical simulation software may involve a licensing or subscription fee, depending on the package. This fee supports ongoing access to updates, new modules, and advanced features that enhance the virtual surgical simulator experience, including modules for Neuro-Oncology and spinal procedures.

  • Are the simulation models reusable, and how does this affect pricing?

    Yes, the models are designed to be reusable, which helps reduce long-term costs. Silicone vessels and durable materials allow repeated use of surgical instruments, suturing needles, and cardiovascular angioplasty devices, making these simulation models a cost-effective solution for continuous surgical simulation and spine surgery training.