contact@reversebodytime.com
Phone +370 5 277 3357
Sūduvių g. 74, Zujūnai,
14166 Vilniaus r. sav,
Lithuania.
contact@reversebodytime.com
Phone +370 5 277 3357
Sūduvių g. 74, Zujūnai,
14166 Vilniaus r. sav,
Lithuania.
Overview:
Stem cells are the body’s natural repair system, crucial for healing and regeneration. At Reverse Body Time (RBT), our advanced UC-MSC (Umbilical Cord Mesenchymal Stem Cells) therapies are precisely designed to promote recovery and regeneration in targeted areas. Whether addressing chronic conditions, injuries, or the effects of aging, our therapies offer a pathway to restored health and vitality.
1. The Science Behind MSCs:
Mesenchymal Stem Cells (MSCs) are multipotent cells capable of differentiating into various tissue-specific cell types, such as bone, cartilage, and muscle cells. This versatility allows MSCs to play a critical role in repairing damaged tissues throughout the body.
2. Immunomodulation:
MSCs also help regulate the immune system, reducing inflammation and preventing harmful immune responses. This ability is particularly valuable in treating autoimmune diseases and chronic inflammation, creating an optimal environment for healing.
3. Secretion of Bioactive Molecules:
MSCs actively produce bioactive molecules like cytokines and growth factors that drive tissue repair, inhibit cell death, and promote the formation of new blood vessels. These secretions accelerate healing and enhance the body's natural regenerative processes.
4. Targeted Regeneration:
Our UC-MSC therapies focus on specific areas of need, effectively treating degenerative diseases, injuries, and age-related decline. By targeting these regions, our treatments restore function and improve overall health.
5. Safety and Efficacy:
We ensure the highest safety and efficacy standards by sourcing UC-MSCs from ethically donated umbilical cords and tailoring treatments to individual needs. Each therapy is rigorously tested and clinically overseen to deliver safe, effective outcomes.
Overview:
Exosomes are small extracellular vesicles, typically 30-150 nanometres in size, that play a vital role in intercellular communication. These vesicles are secreted by nearly all cell types and are key players in processes such as tissue regeneration and healing. At RBT Medical, we harness the power of exosomes to enhance the body’s natural ability to heal, reduce inflammation, and promote recovery across a wide range of conditions.
Unique Properties of Exosomes:
Exosomes are unique in their ability to carry and transfer a variety of biomolecules, including RNA, proteins, and lipids, from one cell to another. This transfer allows exosomes to influence gene expression and modulate cellular behaviour, which is essential in promoting tissue repair and regeneration. The contents of exosomes can vary depending on the type of cells they originate from, making them highly adaptable tools for targeted therapies. For example, exosomes derived from stem cells contain a rich array of growth factors and regulatory RNAs that can promote healing and regeneration in damaged tissues.
Exosomes work by fusing with the target cells and releasing their cargo into the recipient cells. This process can alter the genetic programming of these cells, encouraging them to proliferate, differentiate, or reduce inflammation depending on the therapeutic goals. This ability to influence multiple cellular pathways simultaneously makes exosomes a powerful therapeutic tool in regenerative medicine.
Exosome
Therapies
At RBT Medical, we are at the forefront of using exosomes as a groundbreaking therapeutic tool in regenerative medicine. Exosomes are small vesicles that naturally facilitate communication between cells, playing a crucial role in tissue repair and regeneration. Our exosome therapies leverage their unique ability to transfer biomolecules such as RNA, proteins, and lipids, enhancing the body’s natural healing processes, reducing inflammation, and promoting recovery across various medical conditions. Tailored to address specific health challenges like osteoarthritis, neurodegenerative diseases, and skin rejuvenation, RBT exosomes offer a revolutionary, minimally invasive approach to healing that significantly improves patients' quality of life.
FOXO4-DRI:
-
Overview: FOXO4-DRI is a synthetic peptide designed to specifically target and eliminate senescent cells, which are cells that have stopped dividing and contribute to the aging process and chronic inflammation. By reducing the burden of these damaged cells, FOXO4-DRI may help extend a healthy lifespan and improve overall vitality.
-
Molecular Mechanism: At the molecular level, FOXO4-DRI functions by interfering with the interaction between the FOXO4 protein and p53, a key protein involved in cellular aging and the regulation of the cell cycle. In senescent cells, FOXO4 binds to p53, preventing the induction of apoptosis (programmed cell death). FOXO4-DRI disrupts this interaction, freeing p53 to trigger apoptosis specifically in senescent cells without affecting healthy, proliferating cells. This selective removal of senescent cells can lead to reduced inflammation, improved tissue function, and a potential delay in the onset of age-related diseases. Research into FOXO4-DRI has shown promising results in enhancing DNA repair mechanisms, which are often compromised in aging cells, further contributing to its anti-aging effects.
-
Research Insights: Studies on FOXO4-DRI have demonstrated its potential in rejuvenating aged tissues and extending the lifespan in animal models. Its effects on p53 pathways and DNA repair make it a significant candidate for anti-aging therapies.
BPC-157:
-
Overview: BPC-157, short for Body Protection Compound-157, is a synthetic peptide derived from a naturally occurring protein in the stomach. It is widely recognized for its powerful healing properties, particularly in treating muscle, tendon, and ligament injuries. BPC-157 accelerates the healing process, reduces inflammation, and promotes tissue regeneration at the site of injury.
-
Mechanism of Action: BPC-157 works by enhancing the formation of new blood vessels (angiogenesis), which is crucial for delivering nutrients and oxygen to damaged tissues, thereby speeding up the repair process. It also promotes the production of growth factors and other proteins that are essential for tissue healing. Additionally, BPC-157 has been shown to modulate the inflammatory response, reducing the swelling and pain associated with injuries. This peptide’s ability to protect and repair tissues extends beyond muscles and tendons; it also shows promise in healing gastrointestinal issues, improving nerve regeneration, and even reducing the impact of systemic diseases that affect connective tissues.
-
Research Highlight: Extensive research, particularly in animal models, has highlighted BPC-157’s effectiveness in accelerating the healing of tendons, ligaments, and muscles. In studies involving tendon repair, BPC-157 was shown to significantly improve the rate and quality of healing compared to untreated controls.
Complete List of RBT Peptides:
At RBT Medical, we offer a comprehensive range of peptides, each tailored to specific therapeutic applications. Our peptide offerings include:
-
FOXO4-DRI: Targets and eliminates senescent cells to extend healthy lifespan.
-
BPC-157: Promotes healing of muscle, tendon, and ligament injuries and reduces inflammation.
-
TB-500 (Thymosin Beta-4): Accelerates wound healing, reduces inflammation, and supports tissue regeneration.
-
Epitalon (Epithalon): Regulates the endocrine system, promotes telomere elongation, and has anti-aging effects.
-
PT-141 (Bremelanotide): Enhances sexual desire and treats sexual dysfunction.
-
Humanin: A mitochondrial peptide that protects against oxidative stress and age-related diseases.
-
MOTS-c: Improves metabolic function, promotes glucose metabolism, and mimics exercise benefits.
-
GHK-Cu (Copper Peptide): Supports skin health, wound healing, and anti-aging.
-
Selank: A nootropic peptide that reduces anxiety, improves cognitive function, and modulates the immune system.
-
Thymosin Alpha-1: Enhances immune function and supports the body’s defense against infections and diseases.
-
VIP (Vasoactive Intestinal Peptide): Regulates immune responses, reduces inflammation, and supports neuroprotection.
-
C60 (Fullerene): A powerful antioxidant that protects cells from oxidative damage and supports overall health.
-
Oxytocin: A hormone that enhances social bonding, reduces stress, and has potential neuroprotective effects.
Each of these peptides is meticulously formulated to provide targeted therapeutic benefits, helping our patients achieve optimal health and well-being through cutting-edge regenerative therapies.
Stem cells are the building blocks of the body’s ability to heal and regenerate. Our UC-MSC stem cell therapies are carefully engineered to target specific areas of the body, promoting recovery and regeneration where it’s needed most. Whether you’re dealing with chronic conditions, injuries, or the effects of aging, our therapies offer a pathway to renewed health."
Stem Cell Therapies
Exosomes are tiny vesicles that facilitate communication between cells, playing a crucial role in tissue regeneration and healing. At RBT Medical, we leverage the power of exosomes to enhance the body’s natural ability to heal, reduce inflammation, and promote recovery across a wide range of conditions."
Exosome Treatments
Our Stem Cell Treatments
Stem cells are the building blocks of the body’s ability to heal and regenerate. Our UC-MSC stem cell therapies are carefully engineered to target specific areas of the body, promoting recovery and regeneration where it’s needed most. Whether you’re dealing with chronic conditions, injuries, or the effects of aging, our therapies offer a pathway to renewed health.
Our stem cell therapies offer numerous benefits, including targeted tissue repair, reduced inflammation, and immune system modulation. Ethically sourced and tailored to individual needs, these treatments provide a personalised, effective approach to healing and regeneration. They promote faster recovery, improve outcomes, and offer a less invasive alternative to traditional treatments, significantly enhancing patients' quality of life.
Stem Cell Therapies Benefits
Vision and Eye Health:
-
Overview: Our stem cell treatments focus on repairing damaged retinal cells, reducing inflammation, and potentially reversing conditions like macular degeneration and diabetic retinopathy. These therapies promote retinal tissue regeneration, offering a new avenue for restoring vision.
-
Mechanism of Action: Mesenchymal Stem Cells (MSCs) can differentiate into retinal cells and secrete neuroprotective factors, aiding in the regeneration of retinal tissues and reducing inflammation. This helps restore vision and prevent further degeneration.
-
Clinical Evidence: Studies have demonstrated significant improvements in visual acuity and retinal thickness in patients treated with stem cells.
Cardiovascular Health:
-
Overview: Stem cells have the potential to regenerate damaged heart tissue, improving heart function and aiding recovery from heart failure and myocardial infarction.
-
Mechanism of Action: MSCs can differentiate into heart muscle and blood vessel cells, promote tissue repair, and reduce scarring. They also enhance blood flow by encouraging the formation of new blood vessels.
-
Clinical Trials and Research: Ongoing trials are exploring MSC-derived therapies, particularly exosomes, which have shown promise in cardiac recovery.
Anti-Cancer Properties:
-
Overview: Our treatments use Cytokine-Induced Killer (CIK) cells and dendritic cell vaccines to target and destroy cancer cells while sparing healthy tissue, leveraging the immune system to fight cancer.
-
Mechanism of Action: CIK cells directly attack cancer cells, while dendritic cell vaccines enhance the immune system's ability to recognize and destroy them. This combination creates a powerful, long-lasting anti-cancer response.
-
Clinical Applications: These therapies have shown significant tumour reduction, even in advanced cases, representing a move towards personalised and less invasive cancer treatments.
Osteoarthritis:
For patients suffering from osteoarthritis, exosome therapy can significantly reduce inflammation in the joints, promote cartilage regeneration, and enhance pain relief. By delivering anti-inflammatory signals and growth factors directly to the affected area, exosomes can improve joint function and mobility, offering a promising alternative to more invasive treatments like surgery.
Case Study:
In one study, patients with moderate to severe osteoarthritis experienced a marked reduction in pain and improved joint function after a series of exosome injections. Patients reported not only reduced discomfort but also increased mobility, with some regaining activities they had previously abandoned due to joint pain.
Neurodegenerative Diseases:
In the context of neurodegenerative diseases, such as Alzheimer's and Parkinson's, exosome therapy is emerging as a potential treatment by supporting neuronal survival, reducing inflammation, and promoting the regeneration of damaged neural tissues. Exosomes derived from neural stem cells or other neuroprotective cells can deliver neurotrophic factors that aid in the protection and repair of neurons, potentially slowing the progression of these debilitating conditions. reduce scarring. They also enhance blood flow by encouraging the formation of new blood vessels.
Case Study:
A case study involving patients with early-stage Alzheimer's disease showed that exosome therapy could help preserve cognitive function and slow disease progression. One patient, after receiving regular exosome treatments, reported enhanced memory and a noticeable delay in the worsening of symptoms.
Skin Rejuvenation:
For skin rejuvenation, exosomes offer a non-invasive solution to enhance the skin’s natural healing processes, improve texture, and reduce the appearance of fine lines and wrinkles. By promoting collagen production and improving skin cell turnover, exosome therapy can lead to visibly healthier and more youthful skin.
Case Study:
In a clinical trial focused on skin rejuvenation, participants who received exosome treatments noted a significant improvement in skin elasticity and a reduction in the depth of wrinkles. Testimonials from patients emphasised the non-invasive nature of the treatment and the natural-looking results, with many experiencing a revitalised complexion and healthier skin tone.
Exosome Therapies Benefits
We are committed to advancing the application of exosome therapy across various medical fields. By leveraging the natural communication abilities of exosomes, we are able to offer innovative treatments that not only address the symptoms but also target the underlying causes of many chronic conditions, leading to improved outcomes and enhanced quality of life for our patients.
Our Stem Cell Treatments
Stem cells are the building blocks of the body’s ability to heal and regenerate. Our UC-MSC stem cell therapies are carefully engineered to target specific areas of the body, promoting recovery and regeneration where it’s needed most. Whether you’re dealing with chronic conditions, injuries, or the effects of aging, our therapies offer a pathway to renewed health.
Exosome Treatments
Exosomes are tiny vesicles that facilitate communication between cells, playing a crucial role in tissue regeneration and healing. At RBT Medical, we leverage the power of exosomes to enhance the body’s natural ability to heal, reduce inflammation, and promote recovery across a wide range of conditions.
Stem Cell Therapies Benefits
Our stem cell therapies offer numerous benefits, including targeted tissue repair, reduced inflammation, and immune system modulation. Ethically sourced and tailored to individual needs, these treatments provide a personalised, effective approach to healing and regeneration. They promote faster recovery, improve outcomes, and offer a less invasive alternative to traditional treatments, significantly enhancing patients' quality of life.
Overview: Our stem cell treatments focus on repairing damaged retinal cells, reducing inflammation, and potentially reversing conditions like macular degeneration and diabetic retinopathy. These therapies promote retinal tissue regeneration, offering a new avenue for restoring vision.
Mechanism of Action: Mesenchymal Stem Cells (MSCs) can differentiate into retinal cells and secrete neuroprotective factors, aiding in the regeneration of retinal tissues and reducing inflammation. This helps restore vision and prevent further degeneration.
Clinical Evidence: Studies have demonstrated significant improvements in visual acuity and retinal thickness in patients treated with stem cells.
Vision and Eye Health
Overview: Stem cells have the potential to regenerate damaged heart tissue, improving heart function and aiding recovery from heart failure and myocardial infarction.
Mechanism of Action: MSCs can differentiate into heart muscle and blood vessel cells, promote tissue repair, and reduce scarring. They also enhance blood flow by encouraging the formation of new blood vessels.
Clinical Trials and Research: Ongoing trials are exploring MSC-derived therapies, particularly exosomes, which have shown promise in cardiac recovery.
Cardiovascular Health
Overview: Our treatments use Cytokine-Induced Killer (CIK) cells and dendritic cell vaccines to target and destroy cancer cells while sparing healthy tissue, leveraging the immune system to fight cancer.
Mechanism of Action: CIK cells directly attack cancer cells, while dendritic cell vaccines enhance the immune system's ability to recognize and destroy them. This combination creates a powerful, long-lasting anti-cancer response.
Clinical Applications: These therapies have shown significant tumour reduction, even in advanced cases, representing a move towards personalised and less invasive cancer treatments.
Anti-Cancer Properties
Overview:
Stem cells are the body’s natural repair system, crucial for healing and regeneration. At Reverse Body Time (RBT), our advanced UC-MSC (Umbilical Cord Mesenchymal Stem Cells) therapies are precisely designed to promote recovery and regeneration in targeted areas. Whether addressing chronic conditions, injuries, or the effects of aging, our therapies offer a pathway to restored health and vitality.
Mesenchymal Stem Cells (MSCs) are multipotent cells capable of differentiating into various tissue-specific cell types, such as bone, cartilage, and muscle cells. This versatility allows MSCs to play a critical role in repairing damaged tissues throughout the body.
The Science Behind MSCs
MSCs also help regulate the immune system, reducing inflammation and preventing harmful immune responses. This ability is particularly valuable in treating autoimmune diseases and chronic inflammation, creating an optimal environment for healing.
Immunomodulation
MSCs actively produce bioactive molecules like cytokines and growth factors that drive tissue repair, inhibit cell death, and promote the formation of new blood vessels. These secretions accelerate healing and enhance the body's natural regenerative processes.
Secretion of Bioactive Molecules:
Our UC-MSC therapies focus on specific areas of need, effectively treating degenerative diseases, injuries, and age-related decline. By targeting these regions, our treatments restore function and improve overall health.
Targeted Regeneration
Exosome Therapies Benefits
We are committed to advancing the application of exosome therapy across various medical fields. By leveraging the natural communication abilities of exosomes, we are able to offer innovative treatments that not only address the symptoms but also target the underlying causes of many chronic conditions, leading to improved outcomes and enhanced quality of life for our patients.
For patients suffering from osteoarthritis, exosome therapy can significantly reduce inflammation in the joints, promote cartilage regeneration, and enhance pain relief. By delivering anti-inflammatory signals and growth factors directly to the affected area, exosomes can improve joint function and mobility, offering a promising alternative to more invasive treatments like surgery.
Case Study:
In one study, patients with moderate to severe osteoarthritis experienced a marked reduction in pain and improved joint function after a series of exosome injections. Patients reported not only reduced discomfort but also increased mobility, with some regaining activities they had previously abandoned due to joint pain.
Osteoarthritis
In the context of neurodegenerative diseases, such as Alzheimer's and Parkinson's, exosome therapy is emerging as a potential treatment by supporting neuronal survival, reducing inflammation, and promoting the regeneration of damaged neural tissues. Exosomes derived from neural stem cells or other neuroprotective cells can deliver neurotrophic factors that aid in the protection and repair of neurons, potentially slowing the progression of these debilitating conditions. reduce scarring. They also enhance blood flow by encouraging the formation of new blood vessels.
Case Study:
A case study involving patients with early-stage Alzheimer's disease showed that exosome therapy could help preserve cognitive function and slow disease progression. One patient, after receiving regular exosome treatments, reported enhanced memory and a noticeable delay in the worsening of symptoms.
Neurodegenerative Diseases
For skin rejuvenation, exosomes offer a non-invasive solution to enhance the skin’s natural healing processes, improve texture, and reduce the appearance of fine lines and wrinkles. By promoting collagen production and improving skin cell turnover, exosome therapy can lead to visibly healthier and more youthful skin.
Case Study:
In a clinical trial focused on skin rejuvenation, participants who received exosome treatments noted a significant improvement in skin elasticity and a reduction in the depth of wrinkles. Testimonials from patients emphasised the non-invasive nature of the treatment and the natural-looking results, with many experiencing a revitalised complexion and healthier skin tone.
Skin Rejuvenation
Exosome Therapies
At RBT Medical, we are at the forefront of using exosomes as a groundbreaking therapeutic tool in regenerative medicine. Exosomes are small vesicles that naturally facilitate communication between cells, playing a crucial role in tissue repair and regeneration. Our exosome therapies leverage their unique ability to transfer biomolecules such as RNA, proteins, and lipids, enhancing the body’s natural healing processes, reducing inflammation, and promoting recovery across various medical conditions. Tailored to address specific health challenges like osteoarthritis, neurodegenerative diseases, and skin rejuvenation, RBT exosomes offer a revolutionary, minimally invasive approach to healing that significantly improves patients' quality of life.
Overview:
Exosomes are small extracellular vesicles, typically 30-150 nanometres in size, that play a vital role in intercellular communication. These vesicles are secreted by nearly all cell types and are key players in processes such as tissue regeneration and healing. At RBT Medical, we harness the power of exosomes to enhance the body’s natural ability to heal, reduce inflammation, and promote recovery across a wide range of conditions.
Unique Properties of Exosomes:
Exosomes are unique in their ability to carry and transfer a variety of biomolecules, including RNA, proteins, and lipids, from one cell to another. This transfer allows exosomes to influence gene expression and modulate cellular behaviour, which is essential in promoting tissue repair and regeneration. The contents of exosomes can vary depending on the type of cells they originate from, making them highly adaptable tools for targeted therapies. For example, exosomes derived from stem cells contain a rich array of growth factors and regulatory RNAs that can promote healing and regeneration in damaged tissues.
Exosomes work by fusing with the target cells and releasing their cargo into the recipient cells. This process can alter the genetic programming of these cells, encouraging them to proliferate, differentiate, or reduce inflammation depending on the therapeutic goals. This ability to influence multiple cellular pathways simultaneously makes exosomes a powerful therapeutic tool in regenerative medicine.
Complete List of RBT Peptides:
At RBT Medical, we offer a comprehensive range of peptides, each tailored to specific therapeutic applications. Our peptide offerings include:
FOXO4-DRI: Targets and eliminates senescent cells to extend healthy lifespan.
BPC-157: Promotes healing of muscle, tendon, and ligament injuries and reduces inflammation.
TB-500 (Thymosin Beta-4): Accelerates wound healing, reduces inflammation, and supports tissue regeneration.
Epitalon (Epithalon): Regulates the endocrine system, promotes telomere elongation, and has anti-aging effects.
PT-141 (Bremelanotide): Enhances sexual desire and treats sexual dysfunction.
Humanin: A mitochondrial peptide that protects against oxidative stress and age-related diseases.
MOTS-c: Improves metabolic function, promotes glucose metabolism, and mimics exercise benefits.
GHK-Cu (Copper Peptide): Supports skin health, wound healing, and anti-aging.
Selank: A nootropic peptide that reduces anxiety, improves cognitive function, and modulates the immune system.
Thymosin Alpha-1: Enhances immune function and supports the body’s defense against infections and diseases.
VIP (Vasoactive Intestinal Peptide): Regulates immune responses, reduces inflammation, and supports neuroprotection.
C60 (Fullerene): A powerful antioxidant that protects cells from oxidative damage and supports overall health.
Oxytocin: A hormone that enhances social bonding, reduces stress, and has potential neuroprotective effects.
Each of these peptides is meticulously formulated to provide targeted therapeutic benefits, helping our patients achieve optimal health and well-being through cutting-edge regenerative therapies.
BPC-157:
Overview:
BPC-157, short for Body Protection Compound-157, is a synthetic peptide derived from a naturally occurring protein in the stomach. It is widely recognized for its powerful healing properties, particularly in treating muscle, tendon, and ligament injuries. BPC-157 accelerates the healing process, reduces inflammation, and promotes tissue regeneration at the site of injury.
Mechanism of Action:
BPC-157 works by enhancing the formation of new blood vessels (angiogenesis), which is crucial for delivering nutrients and oxygen to damaged tissues, thereby speeding up the repair process. It also promotes the production of growth factors and other proteins that are essential for tissue healing. Additionally, BPC-157 has been shown to modulate the inflammatory response, reducing the swelling and pain associated with injuries. This peptide’s ability to protect and repair tissues extends beyond muscles and tendons; it also shows promise in healing gastrointestinal issues, improving nerve regeneration, and even reducing the impact of systemic diseases that affect connective tissues.
Research Highlight:
Extensive research, particularly in animal models, has highlighted BPC-157’s effectiveness in accelerating the healing of tendons, ligaments, and muscles. In studies involving tendon repair, BPC-157 was shown to significantly improve the rate and quality of healing compared to untreated controls.
FOXO4-DRI:
Overview: FOXO4-DRI is a synthetic peptide designed to specifically target and eliminate senescent cells, which are cells that have stopped dividing and contribute to the aging process and chronic inflammation. By reducing the burden of these damaged cells, FOXO4-DRI may help extend a healthy lifespan and improve overall vitality.
Molecular Mechanism:
At the molecular level, FOXO4-DRI functions by interfering with the interaction between the FOXO4 protein and p53, a key protein involved in cellular aging and the regulation of the cell cycle. In senescent cells, FOXO4 binds to p53, preventing the induction of apoptosis (programmed cell death). FOXO4-DRI disrupts this interaction, freeing p53 to trigger apoptosis specifically in senescent cells without affecting healthy, proliferating cells. This selective removal of senescent cells can lead to reduced inflammation, improved tissue function, and a potential delay in the onset of age-related diseases. Research into FOXO4-DRI has shown promising results in enhancing DNA repair mechanisms, which are often compromised in aging cells, further contributing to its anti-aging effects.
Research Insights:
Studies on FOXO4-DRI have demonstrated its potential in rejuvenating aged tissues and extending the lifespan in animal models. Its effects on p53 pathways and DNA repair make it a significant candidate for anti-aging therapies.