Biologic disc treatments

[Crystal33]

Some recent biologic disc treatment outcomes........


Intervertebral disc regeneration after implantation of a cell-free bioresorbable implant in a rabbit disc degeneration model.
Department of Rheumatology, Tissue Engineering Laboratory, Charité-Universitätsmedizin Berlin, Germany; TransTissue Technologies GmbH, D-10117, Berlin, Germany.

Source Biomaterials 2010 Apr 27.

Abstract Degeneration of the intervertebral disc is the most common cause of lower back pain. Interestingly, all available treatments are limited to treat the symptoms and not the underlying biologic alterations of the disc. Freeze-dried resorbable non-woven polyglycolic acid (PGA) - hyaluronan implants were used in a degenerated disc disease (DDD) model in New Zealand white rabbits. The constructs were immersed in allogenic serum and implanted into the disc defect. Animals with discectomy only served as controls. The T2-weighted/fat suppression sequence signal intensity of the operated discs as assessed by magnet resonance imaging decreased in both groups one week after the operation compared to a healthy disc. After 12 months the implanted group showed an increase of 51% in the signal intensity compared to the 1-week results whereas the signal intensity in the sham group remained on the same level from one week to 12 months. Histological and quantitative immunohistochemical examination after 12 months indicated cell migration into the defect and showed formation of disc repair tissue.

In controls, repair tissue containing type II collagen was not evident.
In conclusion, the implantation of polymer-based constructs after discectomy induces tissue regeneration resulting in improvement of the disc water content.

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Disc Regeneration Therapy Using Marrow Mesenchymal Cell Transplantation: A Report of Two Case Studies.

Department of Orthopaedic Surgery, Nara Medical University, Nara, Japan.
2010 Apr 23.

STUDY DESIGN.: Marrow mesenchymal cells (MSCs) contain stem cells and possess the ability to regenerate bone, cartilage, and fibrous tissues. Here, we applied this regenerative ability to intervertebral disc regeneration therapy in an attempt to develop a new spinal surgery technique.

OBJECTIVE.: We analyzed the regenerative restoration ability of autologous MSCs in the markedly degenerated intervertebral discs.

SUMMARY OF BACKGROUND DATA.: Fusion for lumbar intervertebral disc instability improves lumbago. However, fused intervertebral discs lack the natural and physiologic functions of intervertebral discs. If intervertebral discs can be regenerated and repaired, then damage to adjacent intervertebral discs can be avoided. We verified the regenerative ability of MSCs by animal studies, and for the first time, performed therapeutic intervertebral disc regeneration therapy in patients and obtained favorable findings.

METHODS.: Subjects were 2 women aged 70 and 67 years; both patients had lumbago, leg pain, and numbness. Myelography and magnetic resonance imaging showed lumbar spinal canal stenosis, and radiograph confirmed the vacuum phenomenon with instability. From the ilium of each patient, marrow fluid was collected, and MSCs were cultured using the medium containing autogenous serum. In surgery, fenestration was performed on the stenosed spinal canal and then pieces of collagen sponge containing autologous MSCs were grafted percutaneously to degenerated intervertebral discs.

RESULTS.: At 2 years after surgery, radiograph and computed tomography showed improvements in the vacuum phenomenon in both patients. On T2-weighted magnetic resonance imaging, signal intensity of intervertebral discs with cell grafts was high, thus indicating high moisture contents. Roentgenkymography showed that lumbar disc instability improved. Symptom was alleviated in both patients.

CONCLUSION.: The intervertebral disc regeneration therapy using MSC brought about favorable results in these 2 cases. It seems to be a promising minimally invasive treatment.

[Crystal33]

A single injection promotes disc Regeneration

Hard to get medical industry to run with these treatments, when the huge money is to be made in ADR and fusion hardware.

CONCLUSION: The results of this study show the feasibility of restoring degenerative rabbit discs by a single injection of OP-1 into the nucleus pulposus. Importantly, the effects of the OP-1 injection on disc height were sustained for up to 24 weeks. The metabolic changes in the cells, following a single injection, might be sustained and, thus, induce long-term changes in disc structure. An efficacy study in large animals is required to show further that the intradiscal injection of OP-1, or bone morphogenetic proteins or growth factors with similar properties would be useful for the structural restoration of the IVD in humans.

Osteogenic protein-1 injection into a degenerated ... [Spine (Phila Pa 1976). 2006] - PubMed result

[Crystal33]

Red wine for disc degeneration.......

The Action of Resveratrol, a Phytoestrogen Found in Grapes,... : Spine

[Crystal33]

Have to add collagen type II to the list. A few human and numerous animal studies have shown that it significantly reduces joint pain. Combined with Glucosamine & Chondroitin seems to be superior to either alone.
It's something else that is not really heard about because there's no money in it to attract attention of big pharma or medical industry.
Could be worth a try for pain reduction. The following product sounds good, but i can't speak from experience.
ImmuCell Kolla2 Collagen Type ll 600mg 120 Capsules by Neocell Laboratories - $24.99

[Crystal33]

A recent study of restored disc height using non surgical decompression.

BioMed Central | Full text | Restoration of disc height through non-invasive spinal decompression is associated with decreased discogenic low back pain: a retrospective cohort study

[Rev. Zen]

The NuCore Injectable Nucleus seems very similar to the DASCOR System that is no longer viable. Is there any more information on the clinical trial in the US that is referenced?

[Crystal33]

Rev,
Nucore type procedure is 100+ times more desirable for patients but something seems to be holding back the development and introduction of minimal biological spine treatments. Could it be the threat to multi billion dollar fusion and ADR industries?

The images of regeneration you wont see with ADR or fusion.

CiteULike: An injectable nucleus replacement as an adjunct to microdiscectomy: 2 year follow-up in a pilot clinical study.