NEA Medical Technologies (2025)

29/10/2024

We invite you to join us for this informative session hosted by Dr. William Hunter, a renowned neurosurgeon and specialist in orthopedic spinal surgeries.

When: Tue, Oct 29 2024
Time: 5:30 PM - 6:30 (CDT)
Where: http://bit.ly/4gVB7kO

During the webinar, Dr. Hunter will share his insights, practical tips, and strategies for how Bone Marrow & Platelet Rich Plasma can be utilized in Spine Fusion and Join Care procedures. This is an excellent opportunity for you to learn more about minimally invasive procedures, bone marrow & PRP utilizing, and the latest advancements in treatments.

Dr. William Hunter is a board-certified neurosurgeon with more than a decade of experience. A respected lecturer and teacher at Duke University, Dr. Hunter travels across the country to teach about minimally invasive techniques. He received his undergraduate degree in biology from Denison University in Ohio, obtained a master’s degree in physiology and biophysics from Georgetown University and attended Georgetown Medical School, where he completed his residency. Dr. Hunter joined the University of Wisconsin as an assistant professor, where he trained neurosurgery residents and medical students in treatments for brain and spine diseases. Two years later, Dr. Hunter left the University of Wisconsin to pursue his career as a spine surgeon in a private practice.

29/10/2024

We invite you to join us for this informative session hosted by Dr. William Hunter, a renowned specialist in orthopedic spinal surgeries.

Free Webinar with Live Training + Q&A
When: Tue, Oct 29 2024
Time: 5:30 PM - 6:30 (CDT)
Where: http://bit.ly/4gVB7kO

During the webinar, Dr. Hunter will share his insights, practical tips, and strategies for how Bone Marrow & Platelet Rich Plasma can be utilized in Spine Fusion and Join Care procedures. This is an excellent opportunity for you to learn more about minimally invasive procedures, bone marrow & PRP utilizing, and the latest advancements in treatments.

Dr. William Hunter is a board-certified neurosurgeon with more than a decade of experience. A respected lecturer and teacher at Duke University, Dr. Hunter travels across the country to teach about minimally invasive techniques. He received his undergraduate degree in biology from Denison University in Ohio, obtained a master’s degree in physiology and biophysics from Georgetown University and attended Georgetown Medical School, where he completed his residency. Dr. Hunter joined the University of Wisconsin as an assistant professor, where he trained neurosurgery residents and medical students in treatments for brain and spine diseases. Two years later, Dr. Hunter left the University of Wisconsin to pursue his career as a spine surgeon in a private practice.

24/09/2024

The Role of Stem Cells in Tissue Regeneration

Stem cells play a pivotal role in tissue regeneration, offering promising solutions for repairing and replacing damaged tissues. Their unique ability to differentiate into various cell types makes them invaluable in regenerative medicine.

Adult Stem Cells (ASCs): Found in tissues like bone marrow and fat, ASCs are multipotent and aid in natural tissue repair. They are already used in therapies, such as bone marrow transplants for leukemia patients, demonstrating their effectiveness in regenerating blood cells.

Stem cells' regenerative capabilities are transforming medical treatments, offering hope for repairing previously irreparable tissues and improving patients' quality of life.

Learn more at www.neamedical.com

17/09/2024

Integrating Stem Cell Treatments into Holistic Healthcare

Integrating stem cell treatments into holistic healthcare involves combining advanced regenerative medicine with traditional and complementary therapies to address the whole person—body, mind, and spirit.

Personalized Care: Holistic plans begin with a thorough assessment of the patient's physical, emotional, and lifestyle needs. Stem cell treatments are tailored to the individual's condition, such as using mesenchymal stem cells for joint repair in arthritis or neural stem cells for neurodegenerative diseases.

Complementary Therapies: Alongside stem cell therapy, complementary treatments like acupuncture, massage, and chiropractic care can enhance overall well-being and support the body's healing processes.

Nutritional Support: A balanced diet rich in essential nutrients supports the efficacy of stem cell treatments. Nutritional counseling ensures patients receive the vitamins and minerals necessary for tissue repair and overall health.

Physical and Mental Health: Physical therapy, exercise, and mental health support, such as counseling or mindfulness practices, are crucial. These help maintain mobility, manage stress, and improve the psychological resilience needed during treatment and recovery.

By integrating stem cell therapy into holistic healthcare, patients receive a comprehensive approach that maximizes the benefits of regenerative medicine while supporting overall health and well-being.

Learn more at www.neamedical.com

10/09/2024

Unveiling the Benefits of Regenerative Medicine

Regenerative medicine represents a revolutionary approach to treating and potentially curing a variety of ailments by repairing or replacing damaged cells, tissues, and organs. Here are some key benefits of this innovative field:

1. Healing Beyond Symptoms
Unlike traditional treatments that often manage symptoms, regenerative medicine aims to address the root causes of diseases. Techniques like stem cell therapy, tissue engineering, and gene therapy work to regenerate damaged tissues and restore normal function.

2. Reduced Reliance on Transplants
Regenerative medicine can significantly reduce the need for organ transplants by growing tissues and organs in the lab. For example, scientists are developing bioengineered organs that could someday be used for transplantation, reducing waiting times and the risk of organ rejection.

3. Enhanced Recovery from Injuries
Patients with severe injuries, such as spinal cord injuries or major burns, can benefit from regenerative therapies that promote faster and more complete healing. Stem cells and growth factors can stimulate tissue repair and reduce recovery times.

4. Personalized Treatments
Advancements in regenerative medicine enable personalized therapies tailored to individual patients. For instance, induced pluripotent stem cells (iPSCs) can be generated from a patient's own cells, reducing the risk of immune rejection and enhancing treatment efficacy.

Integrating regenerative medicine into wellness practices is revolutionizing how we approach health and longevity. This innovative field leverages the body's natural healing mechanisms, focusing on repairing and regenerating damaged tissues and organs.

Learn more at www.neamedical.com

03/09/2024

Integrating regenerative medicine into wellness practices is revolutionizing how we approach health and longevity. This innovative field leverages the body's natural healing mechanisms, focusing on repairing and regenerating damaged tissues and organs.

1. Stem Cell Therapy: Stem cells' ability to differentiate into various cell types is harnessed for treatments ranging from joint repair to skin rejuvenation. Clinics now offer stem cell injections to treat osteoarthritis, promoting cartilage regeneration and reducing pain.

2. Platelet-Rich Plasma (PRP): PRP therapy involves injecting concentrated platelets from the patient's blood to accelerate tissue repair. It's widely used in sports medicine for injury recovery and in dermatology for enhancing skin health and appearance.

3. Tissue Engineering: This approach combines cells, engineering, and materials to restore, maintain, or improve tissue function. Innovations like lab-grown organs and bio-printed tissues are becoming more accessible, offering new solutions for chronic conditions and injuries.

4. Holistic Integration: Wellness centers are increasingly incorporating regenerative techniques alongside traditional practices like acupuncture, massage, and nutrition counseling. This holistic approach enhances overall well-being, focusing on prevention, healing, and rejuvenation.

Regenerative medicine is seamlessly blending with wellness practices, providing advanced, natural solutions to enhance health, promote healing, and support a higher quality of life.

Learn more at www.neamedical.com

27/08/2024

How Stem Cells Aid in Repairing Damaged Tissues

Stem cells are pivotal in repairing damaged tissues due to their unique ability to differentiate into various cell types and self-renew. When tissues are damaged, stem cells can be mobilized to the injury site, where they undergo differentiation to replace lost or dysfunctional cells.

In regenerative medicine, embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) are harnessed for their pluripotent nature, meaning they can become any cell type. This versatility allows scientists to generate specific cells needed for repairing heart muscle after a heart attack, neurons for neurodegenerative diseases, or insulin-producing cells for diabetes.

Adult stem cells, such as mesenchymal stem cells (MSCs) from bone marrow or adipose tissue, play a crucial role in tissue repair through differentiation and the release of growth factors that promote healing and reduce inflammation.

Stem cell therapy holds significant promise for treating various conditions, offering a potential pathway to regenerate damaged tissues and improve patient outcomes.

Learn more at www.neamedical.com

20/08/2024

Addressing Common Questions About Stem Cells

Stem cells are a fascinating and often misunderstood area of medical science. Here are answers to some common questions:

1. What are stem cells?
Stem cells are unique cells capable of developing into various cell types in the body. They can self-renew and differentiate into specialized cells, such as muscle, nerve, or blood cells.

2. Where do stem cells come from?
Stem cells can be sourced from embryos (embryonic stem cells), adult tissues like bone marrow and fat (adult stem cells), and reprogrammed adult cells (induced pluripotent stem cells or iPSCs).

3. What diseases can stem cell therapy treat?
Stem cell therapy has potential in treating a range of diseases, including Parkinson’s disease, spinal cord injuries, heart disease, diabetes, and certain types of cancer. It is also used in bone marrow transplants for blood disorders.

4. Is stem cell therapy safe?
While stem cell therapy shows promise, it is still largely experimental. Clinical trials are ongoing to determine the safety and efficacy of various treatments. It's essential to seek treatment from reputable medical institutions to avoid unproven and potentially unsafe procedures.

5. What are the ethical concerns?
Ethical concerns primarily revolve around embryonic stem cell research, which involves the destruction of embryos. iPSCs offer an alternative by reprogramming adult cells, thus bypassing these ethical issues.

6. How do stem cells differ from other cells?
Stem cells are unique because they can self-renew indefinitely and differentiate into multiple cell types, whereas most other cells have limited replication potential and specialized functions.

Understanding stem cells' capabilities and limitations is crucial as research progresses, paving the way for innovative treatments and therapies.

Learn more at www.neamedical.com

13/08/2024

Autologous bone Marrow Concentrate Intradiscal injection for Degenerative Disc Disease with three-year follow-up
• 26 spinal fusion candidates
• 13 approved for a 1-level fusion and 13 approved for a 2-level fusion
• Treated with intradiscal injection of bone marrow concentrate

Results
Improved disability - At 3-year follow-up, patients reported 67% improvement in disability scores
Decreased pain - At 3-year follow-up, pain scores were 73% lower than baseline.
Pettine, K.A., Suzuki, R.K., Sand, T.T. et al. Autologous bone marrow concentrate intradiscal injection for the treatment of degenerative disc disease with three-year follow-up. International Orthopaedics (SICOT) 41, 2097–2103 (2017). https://link.springer.com/article/10.1007/s00264-017-3560-9
Learn more at www.neamedical.com

06/08/2024

Non-Union Fracture Infection Study

Local Transplantation of Bone Marrow Concentrate granulocytes precursors can cure without antibiotics infected nonunion of polytraumatic patients in absence of bone defect
30 infected tibial non-union patients
Treated with injection of bone marrow concentrate without antibiotics

Results
Eradicated Infection - At 6-month follow-up, 83% of patients were infection free.
Union - At 6-month follow-up, 83% of patients had achieved union
Long term infection cure - At 10-year follow-up, only one patient experienced infection recurrence

Hernigou, P., Trousselier, M., Roubineau, F. et al. Local transplantation of bone marrow concentrated granulocytes precursors can cure without acntibiotics infected nonunion of polytraumatic patients in absence of bone defect. International Orthopaedics (SICOT) 40, 2331–2338 (2016).

https://link.springer.com/article/10.1007/s00264-016-3147-x

Learn more at www.neamedical.com

30/07/2024

Rotator Cuff Surgery Study
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy, improves healing and prevents further tears
• 45 patients with full-thickness supraspinatus tears
• Traditional surgical repair with bone marrow concentrate augmentation
• Compared to matched controls

Results
Faster healing - At 6-month follow-up, blinded readers judged 100% of BMC patients as healed versus 67% of control patients.
Better durability - At 10-year follow-up, 87% of BMC treated patients still had intact repairs versus only 44% of control patients.

Hernigou P, Flouzat Lachaniette CH, Delambre J, Zilber S, Duffiet P, Chevallier N, Rouard H. Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: a case-controlled study. Int Orthop. 2014 Sep;38(9):1811-8. doi: https://pubmed.ncbi.nlm.nih.gov/24913770/

Learn more at www.neamedical.com

23/07/2024

Innovations in spinal care are being revolutionized by the harnessing of stem cells, offering new hope for patients with spinal injuries and degenerative conditions.

Treating Degenerative Disc Disease: Degenerative disc disease, a common cause of chronic back pain, may benefit from stem cell therapy. By injecting mesenchymal stem cells (MSCs) derived from bone marrow or fat tissue into the damaged discs, doctors aim to stimulate the repair and regeneration of disc tissue, reducing pain and restoring mobility.

Reducing Inflammation: Stem cells have anti-inflammatory properties that can help reduce inflammation around the spine, alleviating pain and improving function in conditions like spinal stenosis and arthritis.

Minimally Invasive Procedures: Stem cell therapies are often minimally invasive, involving injections rather than extensive surgery. This reduces recovery time and lowers the risk of complications, making treatments more accessible and appealing to patients.

Innovative stem cell therapies are transforming spinal care by offering new, effective treatments for injuries and degenerative conditions, significantly improving patient outcomes and quality of life.

Learn more at www.neamedical.com

NEA Medical Technologies

29/10/2024

29/10/2024

24/09/2024

17/09/2024

10/09/2024

03/09/2024

27/08/2024

20/08/2024

13/08/2024

06/08/2024

30/07/2024

23/07/2024

Address

Website

Alerts

Contact The Practice

Shortcuts

Share