(C) 2013 American Association of Oral and Maxillofacial Surgeons

(C) 2013 American Association of Oral and Maxillofacial Surgeons J Oral Maxillofac Surg 71:682-688, 2013″
“Study Design. A case of acute celiac artery compression syndrome after spinal fusion in a patient with Scheuermann kyphosis is reported.\n\nObjective. To describe the unusual complication of acute celiac artery compression

after surgical kyphosis correction, to outline diagnostic methods, and to review the pertinent literature.\n\nSummary of Background Data. Chronic celiac artery compression syndrome is well described, yet there is only 1 reported case of acute celiac artery compression after surgical correction of kyphosis. There have been no previous reports of this complication leading to foregut ischemic necrosis after correction APR-246 mw of Scheuermann kyphosis.\n\nMethods. Case report and literature review.\n\nResults. After an anterior release and posterior spinal fusion for a 106 kyphotic deformity performed under 1 anesthetic, our patient developed a perforated gastric antrum on postoperative

day 5, evolving to ischemic necrosis of the stomach, gallbladder, and spleen discovered on postoperative day 7. Abdominal angiography indicated that his celiac artery had been occluded at its origin. After this event, the patient required a prolonged intensive care hospital stay and required a Roux-en-Y gastro-jejeunostomy reconstruction. He is now doing well at 1-year follow-up with independent ambulation and a regular diet.\n\nConclusion. buy AZD8186 Acute celiac artery compression after surgical kyphosis correction is a rare but potentially serious adverse event. Spinal deformity surgeons and intensivists should be aware of this entity, and should have a high index of suspicion for it if sepsis of unknown origin, an acute abdomen, or elevated liver enzymes are encountered after surgery after correction

of a kyphotic deformity.”
“Women are at a greater risk for knee osteoarthritis (OA), but reasons for this greater risk in women are not well understood. It may be possible that differences in cartilage composition and walking mechanics are related to greater OA risk in women. (1) Do women have higher knee cartilage and meniscus T-1 rho than men in young healthy, middle-aged non-OA and OA populations? (2) Do women exhibit greater static and dynamic (during walking) knee loading STAT inhibitor than men in young healthy, middle-aged non-OA and OA populations? Data were collected from three cohorts: (1) young active ( smaller than 35 years) (20 men, 13 women); (2) middle-aged (a parts per thousand yen 35 years) without OA (Kellgren-Lawrence [KL] grade smaller than 2) (43 men, 65 women); and (3) middle-aged with OA (KL bigger than 1) (18 men, 25 women). T-1 rho and T-2 relaxation times for cartilage in the medial knee, lateral knee, and patellofemoral compartments and medial and lateral menisci were quantified with 3.0-T MRI.

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