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Bio insurance for newborns


Bio insurance programs can be tailored to your needs and quality of life expectations.

Safe stem cells

Bio insurance gives confidence in the healthy future of your child

Your baby's health depends on you. Provide your child with the opportunity to use the best medical technology to maintain health and longevity, prolong youth, and quality aging. This chance can be used only once — at birth. Valuable biomaterials can either be discarded or stored and used to treat dozens of different diseases.Choose GOOD CELLS newborn bio insurance packages, and we will take care of everything!
Today, more than 20 million people have used stem cell therapy, there are national stem cell banks, and more than 1,000 clinical trials have been registered. Every two weeks, a new study about stem cell usage is published.

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Our advantages:
1. Preservation of stem cells, not tissues. If necessary, you need to order the required therapeutic dose, and our specialists will prepare it. You don't have to wait until the tissue defrosts and cells are isolated.
2. Formation of a personal bank of child stem cells.
3. In the case of prior agreement on storage of a therapeutic dose, cells can be urgently prepared in 24 hours.
We are professionals in the field of biotechnology. We not only isolate and store stem cells, like most umbilical cord blood banks, but we also have real experience of their use. No need to spend extra time looking for a clinic for treatment. You can get all procedures with us.

Safe stem cells

Process


Consultation with a doctor

Isolation, cultivation, and testing of stem cells

Issuance of a cell culture passport

Cryopreservation and storage of stem cells

Choose what types of cells you want to save. Tissues and cells that can be stored at GOOD CELLS:

  • Umbilical cord blood

    Cord blood is blood found in the umbilical cord and placenta. It can be easily collected, tested, cryopreserved, and stored in our cord blood bank for future use.Umbilical cord blood contains hematopoietic stem cells, endothelial progenitor cells, mesenchymal stem cells.

  • Hematopoietic stem cells (HSCs)

    From the HSCs of bone marrow come all blood cell types: erythrocytes, leukocytes, and thrombocytes. Compared to bone marrow HSCs, cord blood HSCs have a greater therapeutic potential because they are "younger". HSC umbilical cord blood is collected without any risk to the mother or child, it is faster and virtually eliminates the risk of infection. This cell type does not require strict typing of histocompatibility antigens, and the likelihood of rejection after transplantation is lower.
    Application:
    HSC transplantation from umbilical cord blood is used to treat hematological disorders: anemia, leukemia, lymphoma, immunodeficiency, etc. More than 40,000 transplants of these cells have already been performed worldwide. More than 25,000 patients were cured through such transplants. Umbilical cord blood stem cells can also be used to treat neurological diseases and brain injuries. Cerebral palsy, encephalopathy, traumatic brain injury, hydrocephalus, and autism are disorders in which umbilical cord blood stem cells can help.
    A list of clinical trials using umbilical cord blood stem cells can be found at the following link.

  • Umbilical cord mesenchymal stem cells

    The umbilical cord has two arteries and one vein, which are protected by connective tissue. This tissue is one of the sources of MSC. The poppy contains tens of times more MSCs, compared to bone marrow and adipose tissue — the classic sources of MSCs. Non-invasive sampling, high proliferation potential, stable population doubling time, many colony-forming cells, the wide potential for differentiation, low immunogenicity — the advantages of this type of cells
    Usage:
    The MSC of the umbilical cord can be used for these diseases:
    treatment of autoimmune diseases (rheumatoid arthritis, multiple sclerosis, ulcerative colitis, Crohn's disease, etc.); treatment of cardiovascular diseases (post-stroke cardiosclerosis, cardiomyopathy, coronary heart disease, arrhythmia); treatment of liver cirrhosis and liver failure; treatment of the musculoskeletal system (osteoarthritis, traumatic disorders of joints and tendons, sports injuries, congenital or genetically mediated bone disorders); treatment of the nervous system disorders (autism, Alzheimer's disease, spinal cord injury); treatment of diabetes mellitus; bioengineering of tissues and organs (skin and vascular equivalents, heart valves, bone, and cartilage structures).
    Current list of clinical trials involving umbilical cord MSCs.

  • Placenta mesenchymal stem cells

    The placenta is a unique organ consisting of mother and child cells. Besides, the placenta is a rich reservoir of mesenchymal stem cells. There are several advantages of MSCs derived from the placenta compared to MSCs isolated from adult tissues:
    more homogeneous and "young" population of cells; high rate of proliferation; low risk of ex vivo aging; better ability to migrate to damaged tissue; immunological tolerance.
    Usage:
    MSC of the placenta can be used in cell therapy of idiopathic pulmonary fibrosis, ischemic stroke, type 2 diabetes, Crohn's disease, hemorrhagic cystitis, hypoxic-ischemic encephalopathy, graft-versus-host disease, osteoarthritis, wound healing, cosmetic purposes.

  • Amniotic membrane mesenchymal stem cells 

    The amniotic membrane or amnion is a highly elastic transparent membrane that covers the fetus during development. This structure is formed very early in development. The amnion is the source of at least two types of stem cells: mesenchymal stem cells of the amniotic membrane and epithelial cells of the amniotic membrane. MSCs of the amniotic membrane have similar properties to MSCs of the placenta but are also characterized by a tendency to neurogenic differentiation.
    Usage:
    MSC of the amniotic membrane can be used to treat cardiovascular diseases, disorders of the musculoskeletal system, disorders of the nervous system, diabetes, multiple sclerosis, wound healing, and cosmetic problems.

  • Amniotic membrane epithelial cells

    In vitro, amniotic membrane epithelial cells (AEC) exhibit epithelial morphology and grow in tightly packed clusters. Ease of extracting, the ability to differentiate into specialized cells of all three germ layers, low immunogenicity, anti-inflammatory properties, and indisputable nature make AEK an up-and-coming tool to use in regenerative medicine.
    Usage:
    AEK can be considered for clinical use in the treatment of a wide range of conditions, including ophthalmic diseases (corneal epithelial dystrophy), pulmonary fibrosis, liver fibrosis, multiple sclerosis, congenital metabolic disorders, spinal cord injuries, Parkinson's disease, primary ovarian failure, premature Asherman's syndrome.

Safe stem cells

Prices

The price includes an additional discount for storage The cost of the package, UAH
Unique Premium Standart
Umbilical cord blood,
MSC of umbilical cord,
MSC of placenta,
MSC of the amniotic membrane,
epithelial cells of the amniotic membrane
Umbilical cord blood,
MSC of umbilical cord,
MSC of placenta
Umbilical cord blood +
MSC of umbilical cord
Bio insurance 75000 55000 40000
1-year storage 3025
5-year storage 12100
10-year storage 20000

Safe stem cells

All bio insurance packages include the following services: 

round-the-clock monitoring of our specialists; organization of the collection and transportation of biomaterials; processing, testing, and cryopreservation of stem cells; long-term storage of stem cells and providing them to you on-demand; delivery of stem cells to any medical institution in Ukraine; free preparation of documents for the transportation of stem cells abroad.
Legal aspects
An agreement on the preservation of newborn stem cells can be drawn up in two ways:
1. The biobank of stored stem cells belongs only to the child and cannot be used by the parents or relatives of the child under 18 years of age without his/her special permission.2. Up to 18 years of age, the child's biobank can be disposed of by the parents.

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Bio insurance

The process of bio insurance

A personal manager will be with you at all stages of the bio insurance program. Phases of the program:
1. Choosing the optimal package.2. Signing documents for the organization, isolation, cultivation, and storage of the child's stem cells.3. Contact your maternity hospital and obstetrician-gynecologist to agree on the logistics and technology of material collection.4. Transfer to the maternity hospital of a case for the collection and transportation of postpartum materials.5. When labor begins, we will dispatch a special courier who will wait for the case and immediately deliver the received materials to our biotechnology lab.6. Creation of a personal biobank for your baby, freezing cells in liquid nitrogen and transferring them to a cryobank.7. Obtaining a passport for the stored cell culture. Usually, 3-4 weeks pass from the day of the child's birth to the moment the documents are created.
Our manager will always be in touch!

GOOD CELLS newborn bio insurance is an investment in the health of your family. Don't miss this unique chance!

Safe stem cells

Main questions about bio insurance

  • How does it work?

    Bio insurance of a newborn is a program for collecting precious extraembryonic tissues and isolating stem cells from them for further cryopreservation. Extraembryonic tissues include the placenta, amnion, yolk sac, allantois, and umbilical cord. Extraembryonic tissue is usually discarded during childbirth. But with the help of biotechnology, stem cells can be isolated from these tissues and stored for many years.

  • Is it worth it? 

    Stem cells isolated from extraembryonic tissues can be used in the treatment of anemia, oncohematology, traumatic brain injury, viral infection, limb ischemia, stroke, and cerebral ischemia, diabetes mellitus, multiple sclerosis, myocardial infarction, strokes, peripheral neuropathy, trophic ulcers, Crohn's disease, graft versus host disease, pulmonary fibrosis, cardiomyopathy, knee osteoarthritis, amyotrophic lateral sclerosis, and erectile dysfunction. And also, stem cells are used for rejuvenation and recovery after surgery, post-infectious conditions, strengthening the immune system.Therefore, the procedure is definitely worth it!

  • Why should stem cells be stored, not tissues? 

    The cells are the target of product storage. Tissue is an only raw material for stem cell isolation. When storing tissues, if it is necessary to use a biobank, it will be necessary to order separately the isolation of cells. At the same time, it is not always possible to isolate stem cells of good quality from tissue samples that have been stored in nitrogen for a long time.
    International protocols advise biotechnologists to work with fresh material. This ensures that the maximum possible cell viability and potential is maintained.GOOD CELLS adheres to the recommendations of the international community and preserves stem cells.

Safe stem cells

Cryopreservation and storage of stem cells

Our manager is always ready to answer your questions. Consultation by phone is completely free and does not oblige you to anything.
We will be happy to provide you with comprehensive information so that you can make the right choice!