Cell Therapy for Cartilage Repair Prineville OR

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Scot E Burgess, DMD
(541) 923-7432
PO Box 697 710 SW Highland Ave
Redmond, OR
Specialties
Orthodontics/Dentofacial Orthopedics

Data Provided By:
Richard Henry Bolt, MD
(541) 923-4382
3310 NW Tetherow Bridge Loop
Redmond, OR
Specialties
Orthopedics
Gender
Male
Education
Medical School: Univ Of Il Coll Of Med, Chicago Il 60680
Graduation Year: 1970
Hospital
Hospital: Memorial Hospital At Oconomowo, Oconomowoc, Wi; Waukesha Memorial Hospital, Waukesha, Wi
Group Practice: Orthopaedic Assoc-Waukesha

Data Provided By:
Kathleen R Moore, MD
(541) 388-2333
2300 SW Glacier Pl
Redmond, OR
Specialties
Orthopedics
Gender
Female
Education
Medical School: Or Hlth Sci Univ Sch Of Med, Portland Or 97201
Graduation Year: 1989

Data Provided By:
Robert James Strukel, MD
2006 Highway 101
Florence, OR
Specialties
Orthopedics
Gender
Male
Education
Medical School: Univ Of Mn Med Sch-Minneapolis, Minneapolis Mn 55455
Graduation Year: 1973

Data Provided By:
Gavin John Button, MD
(503) 234-9861
5050 NE Hoyt St Ste 340
Portland, OR
Specialties
Orthopedics
Gender
Male
Education
Medical School: Tufts Univ Sch Of Med, Boston Ma 02111
Graduation Year: 1999

Data Provided By:
Dr.Brett Gingold
(541) 388-2333
1315 Northwest 4th Street
Redmond, OR
Gender
M
Education
Medical School: Univ Of Vt Coll Of Med
Year of Graduation: 1997
Speciality
Orthopedic Surgeon
General Information
Accepting New Patients: Yes
RateMD Rating
5.0, out of 5 based on 3, reviews.

Data Provided By:
James Roy Karmy, MD
(541) 923-0728
333 NW Larch Ave
Redmond, OR
Specialties
Orthopedics
Gender
Male
Education
Medical School: Loma Linda Univ Sch Of Med, Loma Linda Ca 92350
Graduation Year: 1973
Hospital
Hospital: Mountain View Hospital Dist, Madras, Or; Central Oregon District Hosp, Redmond, Or
Group Practice: Redmond Orthopedic Clinic

Data Provided By:
Dr.ROBERT TATSUMI
(503) 885-9391
19260 Southwest 65th Avenue #340
Tualatin, OR
Gender
M
Speciality
Orthopedic Surgeon
General Information
Accepting New Patients: Yes
RateMD Rating
5.0, out of 5 based on 2, reviews.

Data Provided By:
Nicolas John Stratton, MD
(503) 769-8470
Salem, OR
Specialties
Orthopedics
Gender
Male
Education
Medical School: Univ Of Ca, Irvine, Ca Coll Of Med, Irvine Ca 92717
Graduation Year: 1995

Data Provided By:
Kenneth Anthony Hermens, MD
862 SE Oak St Ste 3B
Hillsboro, OR
Specialties
Orthopedics
Gender
Male
Education
Medical School: Or Hlth Sci Univ Sch Of Med, Portland Or 97201
Graduation Year: 1979

Data Provided By:
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Cell Therapy for Cartilage Repair: A Review and Update

Research into repair techniques for damage to knee cartilage is moving right along. Surgeons in Europe and Australia are ahead of American surgeons as they have moved from first-generation cartilage repair through second generation methods to the more current third-generation approaches.

Only one type of third-generation cell therapy for cartilage repair is available in the United States: the matrix-induced autologous chondrocyte implantation or MACI. MACI is the subject of this review article. Although it is being used by U.S. surgeons, the U.S. Food and Drug Administration (FDA) has not yet approved this type of cell carrier yet.

But let's step back a minute and get some background information that will help you understand what's going on. The basic problem is one of damage to the articular (joint surface) cartilage of the knee. The hole or defect can be small but deep (all the way down to the bone). Sometimes, the defect is large (wide and deep).

The affected person experiences knee pain and joint swelling, locking, stiffness, and clicking. The symptoms can be bad enough to interfere with daily activities at home and work and create quite a bit of disability. Sports participation can be out of the question.

Because so many athletes are affected and given the fact that knee joint (articular) cartilage doesn't repair itself, researchers started looking for ways to treat cartilage injuries of this type. They tried scraping the area and smoothing it down, a procedure called debridement. They tried drilling tiny holes into the bone marrow to stimulate bone healing. That's called microfracture. And they tried taking healthy cartilage from one part of the knee and transferring it to the lesion to fill in the hole.

All of these treatment methods had problems. There wasn't one approach that could work well for all different types and sizes of cartilage defects. That's when cell therapy was developed. Healthy cartilage cells (chondrocytes) were harvested from the knee but instead of using them directly in the damaged area, they were transferred to a lab. In the lab, the cells were used to grow more cells. When there were enough cells to fill in the hole, they were reimplanted into the patient and covered with a patch made of periosteal (bone) cells.

That procedure was called autologous chondrocyte implantation (ACI). It was the first cell therapy devised for the problem of full-thickness (down to the bone) cartilage injuries. That's why it's considered a first-generation approach to cell therapy cartilage repair. But again there were problems. The procedure is invasive and requires a two-step (staged) surgical procedure. That means at least two surgeries with all of the possible costs and risks that go with staged procedures.

The next batch of autologous chondrocyte implants were improved and formed the second-generation techniques. Instead of covering the patched up hole with periosteum (bone cells), they t...

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