Cartilage is one of the earliest reconstructed tissues used in tissue engineering. Due to the lack of appropriate seeding cells, cartilage tissue engineering is, however, relatively lagged behind. With the emergence of stem cell research, adipose stem cells(ASCs) are introduced as seeding cells into tissue engineering for possessing many advantages such as wide spreading, large amount of cells available and easy to obtain. However, the outcome of tissue engineered cartilage construction by ASCs is not as ideal as that by bone marrow stem cells (BMSCs) yet. Low efficiency of ASC chondrogenesis is considered the major cause. This review summarizes the purification of adipose-derived cells, maintenance of sternness and optimization of ehondrogenie induction, which play vital roles in improving ASC s chondrogenesis.

Objective: To investigate treatment and outcome of rib cartilage framework in ear reconstruction. Methods: 12 cases of rib cartilage framework infection in ear reconstruction were retrospectively analysed in the latest four years. Lab examination results showed that staphylococcus aureus were found in 5 cases, coagulase negative staphylococcus in 3 cases, Klebsiella pneumonia in 2 cases, aeromonas hydrophila in 1 case and no bacteria were found in 1 case with regular culture. Debridement, systemic antibiotic therapy, saline irrigations and unobstructed drainage were utilized to treat the infection. Results: The average duration of dressing change was 35 days in 12 cases (12-67 days), of which six cases were cured leaving no obvious or mild change of cartilage framework. Cartilage framework was totally damaged by infection in one case, so the framework had to be removed and debridement was then carried out to control infection. Secondary repair should be taken at least 6 months later. In the rest 5 cases, frameworks were taken out in the early stage of infection. The infected portion of the cartilage was removed and the healthy part was buried subcutaneously in the chest. The expanded postauricular flap and fascia were smoothened. Secondary repair should be performed after 6 months. Conclusions Effective debridement, irrigations and drainage can be used to control infection of cartilage framework and maintain normal contour and structure of reconstructed auricle. With regards to severe infection, framework should be removed as early as possible and infected portion of cartilage should be cleared out, while healthy part could be used for secondary reconstruction of auricular contour after complete control of infection.

Since adipose stem cells (ASC) have a good immunomodulatory capacity, ASCs have great potential in immunoregulation in vascularized composite allotransplantation, autologous fat transplantation and wound healing of repair and reconstructive surgery. By reviewing the relevant literatures, we discussed the characteristics and application conditions of various ASCs administrations including intravenous injection, intraperitoneal injection, local injection and exosome injection, so as to provide a reference for the further research and application of ASCs based on its immunomodulatory capacity.

Since adipose stem cells (ASC) have a good immunomodulatory capacity, ASCs have great potential in immunoregulation in vascularized composite allotransplantation, autologous fat transplantation and wound healing of repair and reconstructive surgery. By reviewing the relevant literatures, we discussed the characteristics and application conditions of various ASCs administrations including intravenous injection, intraperitoneal injection, local injection and exosome injection, so as to provide a reference for the further research and application of ASCs based on its immunomodulatory capacity.

Objective To introduce our experiences in ear reconstruction with Ba Da Chu Method during the past 10 years, and to summarize the operative skills and key points .Methods Generally, Ba Da Chu Method for ear reconstruction includes 3 stages:Stage 1, skin expansion in mastoid region .Stage 2, auricular reconstruction), consisting of tissue expander removal, earlobe transposition, expanded skin flap and temporal fascia flap formation , autologous costal cartilage harvest , framework fabrication and transplantation , and the wound closure .Stage 3: tragus formation , conchoplasty , and refinement of the reconstructed ear.Results From January, 2006 to December, 2015, we performed 5628 reconstructed ears for 5267 patients with congenital microtia .Follow-up period ranged from 1 to 10 years.Complications in stage 1 included hematoma , infection and expander exposure sporadically arising , which were treated properly and stage2 operations were carried out on time or delayed .5202 (92.4％) reconstructed ears were demonstrated with fine substructure landmarks .236(4.2％) reconstructed ears with poor blood circulation at the margin of skin flap , were cured completely and ended up with acceptable outcomes;108 ( 1.9％) reconstructed ears , manifestedwith mild cartilage framework exposure due to partial necrosis of skin graft , were repaired in stage 3.61 (1.1％) of them with severe exposure , needed additional operations to cover the framework with axial fascial flap immediately .21 ( 0.3％) reconstructed ears lost the normal contour because of cartilage infection , which a secondary operation was needed to repair .The complications of stage 3 occurred rarely , which could be cured in the end .Conclusions Ba Da Chu Method is well adapted to treat congenital microtia , and it is flexible to adjust surgical skills when microtia was combined with other complicated soft tissue deformities or craniofacial bone defects;Satisfactory result were achieved in 92.4％reconstructed ears in this study with fine substructures;During approximate 2-month skin expansion , great attention must be paid to ensure successful expansion , which is based on extensive clinical experiences from doctors, appropriate nursing management from nurses , and careful observation from patients or their families.

As for the treatment of microtia, the status quo is as follows. The ear reconstruction with autologous costal cartilage has been generally accepted as the therapeutic strategy for type Ⅲ/Ⅳ patients with only small ear lobe remaining or complete absence of auricle, and the outcomes are improved steadily with the advances in technology; but for type Ⅰ/Ⅱ patients with larger remnant ear, there is insufficient evidence to be able to support any specific treatment methods as the potential unified approach for surgeons to choose from. Non-surgical treatment with appliance wearing may play an auxiliary role in the treatment of microtia, which is worthy of further research. The authors proposed a serialized treatment system based on their clinical practice and literature review. It is expected to be helpful for the treatment of microtia.

Objective To introduce our experiences in ear reconstruction with Ba Da Chu Method during the past 10 years, and to summarize the operative skills and key points .Methods Generally, Ba Da Chu Method for ear reconstruction includes 3 stages:Stage 1, skin expansion in mastoid region .Stage 2, auricular reconstruction), consisting of tissue expander removal, earlobe transposition, expanded skin flap and temporal fascia flap formation , autologous costal cartilage harvest , framework fabrication and transplantation , and the wound closure .Stage 3: tragus formation , conchoplasty , and refinement of the reconstructed ear.Results From January, 2006 to December, 2015, we performed 5628 reconstructed ears for 5267 patients with congenital microtia .Follow-up period ranged from 1 to 10 years.Complications in stage 1 included hematoma , infection and expander exposure sporadically arising , which were treated properly and stage2 operations were carried out on time or delayed .5202 (92.4％) reconstructed ears were demonstrated with fine substructure landmarks .236(4.2％) reconstructed ears with poor blood circulation at the margin of skin flap , were cured completely and ended up with acceptable outcomes;108 ( 1.9％) reconstructed ears , manifestedwith mild cartilage framework exposure due to partial necrosis of skin graft , were repaired in stage 3.61 (1.1％) of them with severe exposure , needed additional operations to cover the framework with axial fascial flap immediately .21 ( 0.3％) reconstructed ears lost the normal contour because of cartilage infection , which a secondary operation was needed to repair .The complications of stage 3 occurred rarely , which could be cured in the end .Conclusions Ba Da Chu Method is well adapted to treat congenital microtia , and it is flexible to adjust surgical skills when microtia was combined with other complicated soft tissue deformities or craniofacial bone defects;Satisfactory result were achieved in 92.4％reconstructed ears in this study with fine substructures;During approximate 2-month skin expansion , great attention must be paid to ensure successful expansion , which is based on extensive clinical experiences from doctors, appropriate nursing management from nurses , and careful observation from patients or their families.

As for the treatment of microtia, the status quo is as follows. The ear reconstruction with autologous costal cartilage has been generally accepted as the therapeutic strategy for type Ⅲ/Ⅳ patients with only small ear lobe remaining or complete absence of auricle, and the outcomes are improved steadily with the advances in technology; but for type Ⅰ/Ⅱ patients with larger remnant ear, there is insufficient evidence to be able to support any specific treatment methods as the potential unified approach for surgeons to choose from. Non-surgical treatment with appliance wearing may play an auxiliary role in the treatment of microtia, which is worthy of further research. The authors proposed a serialized treatment system based on their clinical practice and literature review. It is expected to be helpful for the treatment of microtia.