Objective To observe and explore the effects of adipose-derived stem cells (ADSCs)-hyaluronic acid (HA) composite on heal ing of wound combined with radiation injury. Methods The ADSCs were harvested from the fat tissue in groin of 10 inbred Sprague Dawley (SD) rats and were isolated and cultured by enzyme digestion. The ADSCs-HA composite wasprepared with ADSCs (5 × 106 cells/mL) at passage 6 and HA (10 mg/mL). Thirty inbred SD rats, 15 males and 15 females, were randomly divided into groups A (n=10), B (n=10), and C (n=10). A 2 cm × 2 cm full-thickness skin defect was made on the rat back before 20 Gy 60Co radiation exposure. One week after debridement, wounds were treated by petrolatum gauze in group A as the control group, by HA (0.4 mL) and petrolatum gauze in group B, and by ADSCs-HA composite (0.4 mL) and petrolatum gauze in group C. The microvessel density (MVD) and the distribution of CD90 positive cells were observed at 1st, 2nd, 3rd, and 4th weeks. Results The wound heal ing was slower, and wound did not heal at 4th week and still filled with granulation tissue in group A; the wound heal ing of group B was faster than that of group A, and the wound did not heal completely with depression in the center at 4th week; the wound healed completely with epidermil izated surface and no obvious depression at 4th week in group C. The histological observation showed that MVD was significantly higher in group C than in groups A and B at the 1st, 2nd, and 3rd weeks (P lt; 0.05), and in group B than in group A at the 3rd week (P lt; 0.05); MVD was significantly higher in groups B and C than in group A (P lt; 0.05), but no significant difference was found between groups B and C (P gt; 0.05) at 4th week. No CD90 positive cell was found in groups A and B; CD 90 positive cells were observed in group C and gradually decreased with time. Conclusion ADSCs-HA composite can accelerate heal ing of wound combined with radiation injury by promoting and controll ing wound angiogenesis.
Objective To explore the appl ication of damage control surgery (DCS) strategy in the treatment of severe burn-trauma combined injury. Methods From January 2004 to December 2009, 28 patients with severe burn-trauma combined injury received salvage treatment according to DCS, including 12 cases of burn combining injury at 2 sites, 6 cases ofburn combining injury at 3 sites, and 10 cases of burn combining injury at 4 sites or above. There were 18 males and 10 females with a median age of 39.5 years (range, 8-56 years). The burn area was 15% to 56% of total body surface area. The injury severity score a (ISS) was 25 to 56, and the traumatic index was 17 to 24. Lethal triad syndrome occurred in all patients. Of them, 16 cases were on admission immediatly after first-aid, and 12 cases were thansferred from other hospitals. The time from injury to hospital ization was 20 minutes to 36 hours. All patients were treated by immediate fluid resuscitation and emergent operation to control hemorrhage and contaminations. Biological dressings were used to seal the wounds provisionally. The systemic therapy was carried out as soon as the vital signs of the patients became stable. Results In 26 survivors, 23 achieved wound heal ing by first intention, 3 had a l ittle residual wound at discharge. The hospital ization days were 31 to 398 days (62 days on average). However, 1 patient died of multiple organ failure, another 1 patient died of severe cerebral trauma with refractory shock. Conclusion The DCS strategy is effective in reducing mortal ity of patients with severe burn-trauma combined injury.
Objective To summarize the research progress of surgical treatment for anterior shoulder dislocation and combined injuries. Methods The related literature was reviewed, and the surgical treatment options for the anterior shoulder dislocation and its combined injuries were summarized. Results Anterior shoulder dislocation can combine with anteroinferior capsular ligament complex injury (Bankart injury), bony Bankart defect, and Hill-Sachs lesion. For Bankart and bony Bankart injuries, arthroscopic repair or coracoid osteotomy combined with bony graft reconstruction can be performed. For Hill-Sachs lesion, conservative treatment, soft tissue repair, or bony reconstruction should be selected based on the extent of the bone defect. For bipolar injury, the Bankart repair, Remplissage, or arthroplasty should be selected based on the extent of the glenoid defect. Conclusion With the development of arthroscopy and the improvement of the surgical concept, there is a complete set of surgical options for various injuries of the anterior shoulder dislocation. When choosing a surgical procedure, the patient’s specific injury and age, exercise level, and other relating factors should be comprehensively assessed in order to achieve the best results.