How Can Cells Help COPD?

Chronic Obstructive Pulmonary Disease (COPD) is a debilitating lung disease, meaning that it worsens over time without proper treatment and symptom management. The progression of the disease goes through four stages, from mild to very severe. It is characterized by a restriction of airflow into and out of the lungs that makes breathing difficult. COPD is the umbrella term for sufferers who have been diagnosed with or show signs of emphysema and/or chronic bronchitisCellular Therapy for COPD is emerging as a practical option for people suffering from this condition.

Therapy for COPD 

Unfortunately, there isn’t a known cure for COPD, but that does not mean that the disease can’t be treated. Many physicians prescribe bronchodilators to help expand the airways, allowing more air to enter and exit the lungs. Also, it is common that a COPD treatment program to include a regiment of breathing and aerobic exercise to rehabilitate some pulmonary functioning. For people in the most severe stages of COPD, supplemental oxygen is also used for treatment. Although most of these treatments are helpful, they do not assistance in the reversal of any symptoms, they are simply used to slow the progression of the disease. A group of physicians have discovered over the past decade that the use of cells can have a positive effect in treating COPD and other pulmonary conditions.

What are Cells? 

Cells are the foundational blocks for any type of living organism. They have the capability for self-renewal and duplication, able to form any type of tissue or organ in your body. Cells from one organ are capable of creating tissue for another organ, which is called plasticity. It has been established that adult cells are able to be transferred into any one single organ in your body.

Cellular Therapy for COPD 

In the case of therapy for lung diseases, autologous cells are used, meaning they originate from the patient’s own body, and can be found in blood. Cells have the capability to form many types of different cells. During the procedure, cellular therapy involves separating cells, which requires specialized laboratory equipment to harvest them. After being removed from the patient’s body, they are then processed and isolated. They are then delivered to the patient intravenously. It surprises many people to hear that the therapy is minimally invasive and usually an outpatient procedure. These medical procedures should be conducted in a clinical venue under the supervision of a trained physician. It takes a professional that has sought specific training in cellular therapy to perform the treatment safely and proficiently. If you would like to speak with someone to find out if you qualify for cellular therapy for COPD, please contact one of our patient care coordinators today at (800) 729-3065 to schedule a free consultation.

* Every patient is given a Patient Satisfaction Survey shortly after treatment. Responses to the 11-question survey are aggregated to determine patient satisfaction with the delivery of treatment.

^ Quality of Life Survey data measured the patient’s self-assessed quality of life and measurable quality of improvement at three months.

All claims made regarding the efficacy of Lung Institute's treatments as they pertain to pulmonary conditions are based solely on anecdotal support collected by Lung Institute. Individual conditions, treatment and outcomes may vary and are not necessarily indicative of future results. Testimonial participation is voluntary. Lung Institute does not pay for or script patient testimonials.

As required by Texas state law, the Lung Institute Dallas Clinic has received Institutional Review Board (IRB) approval from MaGil IRB, now Chesapeake IRB, which is fully accredited by the Association for the Accreditation of Human Research Protection Program (AAHRPP), for research protocols and procedures. The Lung Institute has implemented these IRB approved standards at all of its clinics nationwide. Approval indicates that we follow rigorous standards for ethics, quality, and protections for human research.

Each patient is different. Results may vary.