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Miracell®

Miracell is an innovative stem cell isolation system.

Patented separation technology

Improves cell quality, reduces inflammation & increases treatment success.

Improved cell viability

Increases cell survival rate by automatically adjusting revolutions per minute & angle.

Clinically validated results

Proven effectiveness in numerous clinical studies.

Areas of application

Applications of Miracell®

Regenerative medicine

repair and regeneration of damaged tissue.

Transplant medicine

High-quality stem cells for bone marrow transplants to treat blood diseases.

Wound healing

Quick healing process for chronic wounds and in plastic surgery.

Orthopedic procedures

Improved bone regeneration after fractures through concentrated stem cells and growth factors.

Promoting angiogenesis

Blood vessel formation for ischemic diseases and transplanted tissue.

Anti-aging procedure

Skin resurfacing and rejuvenation through improved cell regeneration in aesthetic medicine.

Extraction of stem cells with Miracell®

Stem cells can be obtained in two ways:

Entnahme von venösem Blut zur Gewinnung von Stammzellen durch eine intravenöse Kanüle.

Centrifuged whole blood (BSC)

Stem cells from venous blood

Extraction of stem cells from venous blood by drawing blood.

Illustration des Beckenknochens mit Vergrößerung, die eine Nadel zeigt, die in das Knochenmark eindringt, um Stammzellen zu entnehmen.

Centrifuged blood from bone marrow (BMSC)

Stem cells from bone marrow

Extraction of stem cells from bone marrow (iliac crest).

Comparing stem cell concentration

The CD34 marker can be used to identify hematopoietic stem cells (stem cells that can develop into all types of blood cells).

gore

1,840 stem cells

per microliter (µl)

Blood contains around 1,840 stem cells per microliter (µl), which is a low concentration.

Centrifuged whole blood (BSC)

11,220 stem cells

per microliter (µl)

Through centrifugation, blood contains around 11,220 stem cells per microliter (µl), significantly more.

Blood from bone marrow

68,670 stem cells

per microliter (µl)

Bone marrow contains around 68,670 stem cells per microliter (µl), a high concentration.

Centrifuged blood from bone marrow (BMSC)

329,960 stem cells

per microliter (µl)

Centrifuged bone marrow blood contains approximately 329,960 stem cells per microliter (µl), extremely enriched.

Balkendiagramm, das den Vergleich der Stammzellkonzentration (CD34) in verschiedenen Quellen darstellt: Blut, BSC, Knochenmark und BmSC. Miracell zeigt dabei eine deutlich höhere Konzentration an Stammzellen im Knochenmark mit einem Wert von 329,96, im Vergleich zu den anderen Quellen.
(Quelle: A Basic Clinical Study on the Validity Assessment Indicators of Domestic Development M-CELL2 Regenerative Medical Devices, GBSA Gyeonggi-do Economic and Scientific Promotion Agency, 2021)

Treatment process & times

You should plan approx. 40 minutes for BSC therapy.

30 minute treatment time

Step 1

blood collection

5 minutes

collection of 30 ml of venous blood.

Step 2

centrifugation

17 minutes

In the next step, the removed blood is processed using the Miracell® centrifuge. Centrifugation isolates and concentrates stem cells.

Step 3

infiltration

5 minutes

The concentrated stem cells are now injected into the affected joint.

You should plan approx. 60 minutes for BMSC therapy.

45 minute treatment time

Step 1

preparation

10 minutes

The first step of stem cell therapy is the sterile preparation of all materials and tools for bone marrow puncture.

Step 2

Anesthesia & waiting time

10 minutes

The puncture site on the iliac crest is locally anesthetized. After anesthesia, it is necessary to wait some time for the local anesthetic to take full effect. This ensures a painless procedure for the patient.

Step 3

puncture

5 minutes

Now the iliac crest is punctured. This involves aspiration of bone marrow blood from the iliac crest.

Step 4

centrifugation

17 minutes

In the next step, the removed blood is processed using the Miracell® centrifuge. Centrifugation isolates and concentrates stem cells.

step 5

infiltration

5 minutes

The concentrated stem cells are now injected into the affected joint.

Bild einer innovativen Technologie zur Zellaufbereitung, bestehend aus mehreren Komponenten. Ein Absperrventil (1) dient der zellschonenden Isolation, eine spezielle Trennung (2) schützt rote Blutkörperchen und Stammzellen, und das Design (3) verhindert Zellverlust. Eine präzise Spezialkanüle (4) wird verwendet, um plättchenarmes Plasma zu entfernen und die Zellkonzentrate zu schützen.

Patented technology for
increased cell survival rate

Shut-off valve for cell-friendly insulation

Avoids cell damage through precise density calculation and reduced intercellular friction.

Protection through spatial separation

Separates red blood cells and stem cells and thus maintains cell integrity.

Design to prevent cell loss

The rounded shape minimizes the loss of valuable cell elements.

Precise PPP removal using a special cannula

A special cannula specifically removes platelet-poor plasma & protects cell concentrates.

Use of LED light for targeted cell stimulation

The use of LED light of different wavelengths specifically stimulates cells to improve their functions. Each wavelength, from blue to red, activates specific cell responses that support purification, immune response, blood circulation, and cell growth.

Blue light

Natural cleansing effect

areas of application

circulatory system

Anti aging procedure

Inhibits the proliferation of skin acne

Green light

Strengthened immunity

areas of application

improving immunity, liver function

Inhibits skin pigmentation

Yellow light

Improves lymphatic and blood circulation

areas of application

circulatory system

Anti aging procedure

Red light

Supports cell growth and collagen formation

areas of application

Orthopedic procedure

dermal lifting procedure

Specific cell weight for
exact cell separation and
concentration

Since the density of cells with nuclei in bone marrow and in blood is different, the isolation valves developed specifically for each type enable precise separation and concentration of nucleated cells from bone marrow and blood.

Ein Diagramm, das die Dichteverteilung verschiedener Blutkomponenten darstellt, darunter Plasma, Blutplättchen, T- und B-Lymphozyten, Monoxyten, sowie rote und weiße Blutkörperchen. Die Grafik zeigt, wie sich diese Komponenten basierend auf ihrer Dichte (g/ml) in verschiedene Schichten aufteilen, wobei die Dichte von links nach rechts und von oben nach unten zunimmt. Die weißen Blutkörperchen befinden sich im oberen Dichtebereich, während rote Blutkörperchen im unteren Bereich angesiedelt sind.

Sterile disposable kits for stem cell collection

Extraction kits for isolating different amounts of stem cells from blood & bone marrow

BSC 30

Stem cells from whole blood
BSC 30 Kit
Delivers 5 ml stem cell concentrate from 30 ml whole blood
All-In-One Kit
1 joint

BSC 60

Stem cells from whole blood
BSC 60 Kit
Delivers 5 ml stem cell concentrate from 30 ml whole blood
All-In-One Kit
2 joints

BmSC 60

Stem cells from bone marrow
BmSC 60 Kit
Delivers 5 ml stem cell concentrate from 30 ml whole blood
All-In-One Kit
2 joints

Product video

Miracell® studies

The latest study results on Miracell®.
Miracell Logo
Intraarticular injection of bone marrow-derived mesenchymal stem cells enhances regeneration in knee osteoarthritis
Bone marrow mesenchymal stem cell-derived exosomes prevent osteoarthritis by regulating synovial macrophage polarization
Comparative analysis of human mesenchymal stem cells from bone marrow and adipose tissue under xeno-free conditions for cell therapy

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