Replantation of forequarter amputation: Report of two cases with successful structural, motor and sensorial results.

Although there have been numerous reports of major replantation of upper extremity amputations, limited numbers of above-elbow amputation replantation have been reported. We present the technical details of two successful replantations of forequarter amputations in a nine-year-old girl and a three-year-old boy. In both cases, the forequarter was amputated due to avulsion traction injuries resulting in amputation including the entire upper limb, while the integrity of the scapula and parascapular muscles was maintained, with no injury to the glenohumeral joint. Replantation was performed, involving a shorter ischemia time with proper fixation, and vascular and neural repairs. Postoperative recovery was uneventful, and motor and sensorial acquisition were quite satisfactory during follow-up periods of 9 and 6 years, respectively. Proper fixation of the amputated part mimicking the original anatomy, radical debridement of avulsed vessels, and reconstruction of the defect using long vein grafts and neural repair while maintaining proper integrity are the most important factors in success. When the requirements are met, replantation of the forequarter in a child yields a superior outcome, from both the functional and esthetic perspectives. To the best of our knowledge, this is the first report in the English literature involving two sequential cases of such high-level replantation resulting in successful reacquisition of both viability and function.

The Effect of Normovolemic and Hypervolemic Hemodilution on a Perforator Flap with Twisted Pedicle Model: Experimental Study in Rats.

BACKGROUND: Several studies showed the detrimental effect of pedicle torsion on flap survival; however, the impact of hemodilution in this peculiar condition has never been investigated. This study evaluated the effect of acute normovolemic and hypervolemic hemodilution on flap survival in a perforator flap with twisted pedicle model. METHODS: Sixty-three female Wistar rats were divided into three groups of 21 rats each: group 1, superficial inferior epigastric artery flap, which was elevated bilaterally and transposed back to the abdominal wall with different angles of rotation (i.e., 90, 180, 270, and 360 degrees); group 2, surgery with previous acute normovolemic hemodilution; and group 3, surgery with previous acute hypovolemic hemodilution. Normovolemic hemodilution was obtained, simultaneously removing 2 cc of blood and replacing it with an equal volume of isotonic sodium chloride 0.9% (two-thirds) plus hydroxyethyl starch 6% (one-third). Hypervolemic hemodilution was obtained by hemodilution and a 20 percent blood volume expansion. Microangiography of the flap and histopathologic analyses were performed. RESULTS: Mean hematocrit values after hemodilution were 27.80 ± 0.04 percent for the acute normovolemic hemodilution group and 27.01 ± 0.03 percent for the acute hypovolemic hemodilution group. Twisting the pedicle at 90, 180, and 270 degrees had no effect on flap survival in all groups. However, 360-degree pedicle torsion showed flap edema, congestion, and necrosis. CONCLUSIONS: The authors' hemodilution protocol is an effective and reliable method that could be used to further investigate the impact of the hemodynamic changes that occur during hemodilution on flap microcirculation. The results obtained sustain the existence of a strong correlation between necrosis rate and hemodilution.

Treating the Golden Implant Visibility on a Paralytic Eye by Using the Capsule Shield Technique.

Static upper eyelid weight loading is a well known treatment option for patients who suffer from paralytic lagophtalmus. Golden implants may cause some complications such as extrusion, postoperative ptosis, visibility of the implant from the skin, infection, or dislocation. Our patients applied to our clinic with discomfort of the implant's easily noticeable visibility in their daily life. They were scheduled the operation programme for reducing visibility of implant.In operation, capsule formation has seen and dissection begun preserving the capsule formation. The capsule has opened on its cranial edge and implant has been removed. By this maneuver, 2 layers of capsule were dissected from surrounding tissues without separating its caudal edges from the upper tarsal fold. These 2 layers were sutured to each other providing strong fibrous shield with the aim of preventing implant visibility. A new pocket has been created under this fibrous shield.Capsule shield technique is provided to replace the implant and prevent revisibilation by using forceful fibrous and highly vascular 2 layers of capsule. This technique seems 1 step ahead than autogenous grafts that require secondary surgical area and bring donor site complications with itself. It does not contain any risk of developing foreign body response and graft infection, unlikely nonautogenous/autogenous graft materials. Also, in the capsule shield technique, operation duration will be shorter and hospitalization period will be shorter compared with techniques using barrier materials because it does not require any additional surgical intervention in donor area. In addition, the authors keep the apeuneurosis in anatomical position and no other new incisions are required. Since no biomaterials are required, this technique also avoids donor site morbidity.

The Effect of Normovolemic and Hypervolemic Hemodilution on a Microsurgical Model: Experimental Study in Rats.

BACKGROUND: Nowadays, postoperative flap perfusion impairment still occurs in free flap surgery; despite several studies on microcirculatory physiology, the effect of hemodilution is still extremely controversial. The aim of this study was to investigate the impact of acute normovolemic and hypervolemic hemodilution on the incidence of flap survival rate in a microsurgical rat model. METHODS: Forty female Wistar rats were divided into four groups of 10 rats each: in group 1, a superficial inferior epigastric artery flap was elevated until femoral vessels were isolated, sectioned, and anastomosed without hemodilution; in group 2, surgery with previous acute normovolemic hemodilution was performed; in group 3, surgery with previous hypervolemic hemodilution was performed; and group 4, was used as a negative control to validate the microsurgical model. Normovolemic hemodilution was obtained, with simultaneous removal of an average of 2.25 cc of blood and replacement with an equal volume of isotonic sodium chloride 0.9 percent and hydroxyethyl starch 6 percent. Hypervolemic hemodilution was obtained by hemodilution and a 20 percent blood volume expansion. Microangiography of the flap and histopathologic analyses were performed. RESULTS: Mean hematocrit values after the hemodilution were 26.80 ± 0.05 percent for group 2 and 28.11 ± 0.04 percent for group 3. Skin flap survival and vascularization after 7 days were significantly higher in both hemodiluted groups compared with the control group (p < 0.05). CONCLUSION: Hemodilution was an effective way of providing better microcirculatory blood perfusion, increasing significantly the flap survival rate in the authors' microsurgical model.

Comparing different postconditioning cycles after ischemia reperfusion injury in the rat skin flap.

Ischemic postconditioning is a useful manipulation to reduce the undesirable effects of ischemia-reperfusion (I/R) injury. The beneficial results of this phenomenon against I/R injury have been seen in several flap models. However, there are no published works comparing different postconditioning (post-con) cycles in skin flaps. In this study, we investigated the effectiveness of different post-con cycles in a skin flap model. Epigastric island flap (6 × 3 cm) model which was based on the left superficial epigastric artery and vein was used, and complete 6 hours of ischemia was generated by occlusion of the pedicle. Forty male Wistar rats were allocated into 5 groups (n = 8 in each group). Group 1 (sham group): the elevated skin flap was repositioned without an episode of ischemia. Group 2 (control group): skin flap was elevated and 6 hours of complete ischemia was induced by clamping the pedicle. Group 3 (post-con 1): After ischemia, post-con was performed by 6 cycles of 15 seconds of repeated I/R periods. Group 4 (post-con 2): After ischemia, post-con was performed by 6 cycles of 30 second of repeated I/R periods. Group 5 (post-con 3): After ischemia, post-con was performed by 6 cycles of 60 second of repeated I/R periods. Flap viability was assessed 1 week after the surgical procedure, the necrotic area of the skin flap was measured using image analysis on the computer. The area of flap necrosis was statistically significant between the control and post-con group 4 and group 5, and no statistically significant difference was obtained between the control and post-con group 3. Groups 4 and 5 demonstrated lesser area of flap necrosis than the control group and group 4 was superior to group 5. The results revealed that the post-con applied by means of 6 cycles of 30 seconds yields the best protection against I/R injury in the rat skin flap model.