1.Microsurgical Training using Reusable Human Vessels from Discarded Tissues in Lymph Node Dissection.
Naohiro ISHII ; Tomoki KIUCHI ; Tomito OJI ; Kazuo KISHI
Archives of Plastic Surgery 2016;43(6):595-598
The use of human vessels at the beginning of microsurgery training is highly recommended. But vessels with the appropriate length for training are not often obtained. Whether these vessels may be reused for training has not been reported. Accordingly, we harvested vessels from discarded tissues in lymph node dissection and demonstrated that vascular anastomosis training using the same human vessels several times is possible by placing the vessels in a freezer and defrosting them with hot water. Vascular walls can be stored for microsurgical training until about 4 years after harvest, as shown in the gross appearance and histologic findings of our preserved vessels. We recommend the technique presented here for the long-term reuse of human vessels for microsurgery training that closely resembles real procedures.
Humans*
;
Lymph Node Excision*
;
Lymph Nodes*
;
Microsurgery
;
Water
2.Surgery Requiring Detailed Preoperative Simulation and Scar De-epithelialization to Repair Severe Postoperative Scarring from Gastroschisis.
Naohiro ISHII ; Tomito OJI ; Kazuo KISHI
Archives of Plastic Surgery 2017;44(4):337-339
We present the case of a patient with severe postoperative scarring from surgical treatment for gastroschisis, with the intestine located immediately under the dermal scar. Although many patients are unsatisfied with the results of scar repair treatment, few reports exist regarding severe or difficult cases involving the surgical repair of postoperative scar contracture. We achieved an excellent result via simulation involving graph paper drawings that were generated using computed tomography images as a reference, followed by dermal scar de-epithelialization. The strategy described here may be useful for other cases of severe postoperative scar contracture after primary surgery for gastroschisis.
Cicatrix*
;
Contracture
;
Gastroschisis*
;
Humans
;
Intestines