Seeding cells play an important role in the peripheral nerve damage repair. Seeding cells studied consequently in peripheral nerve are Schwann cells, bone marrow mesenchymal stem cells and neural stem cells. Schwann cells, the first seeding cells, are various unique glial cells in the peripheral nervous system, which can form the myelin sheath for insulation and package of the neuron projecting axons in the peripheral nervous system so that the conduction velocity of the nerve signal was accelerated. It can be proved that Schwann cells played an important role in the maintenance of peripheral nerve function and in the regeneration process after peripheral nerve injury. The second, bone marrow mesenchymal stem cells are the various mesenchymal stem cells mainly exist in the systemic connective tissues and organs. These functional stem cells are often studied at present, and it has been found that they have exuberant proliferation and differentiation potentials. Neural stem cells, mentioned the third in sequence, are the kind of pluripotent cells with multi-directional differentiation, which could conduct the self-renewal function, and generate and differentiate neurons, astrocytes and oligodendrocytes through asymmetric cell division. These three types of seed cells are discussed in this paper.
Osteochondral defects is a common clinical joint disease. The complexity of cartilage-bone interface and the poor self-repair capacity of cartilage are both reasons for current relatively limited clinical treatments. The introduction of tissue engineering provides a new treatment method for osteochondral repair. This paper reviews three main elements of cartilage-bone tissue engineering: seed cell source and culture method, cytokines regulation and synergistic effect, and scaffold components and type. We mainly focused on current status quo and future progress of cartilage-bone repair scaffolds. This paper provides some reference for the further development of osteochondral tissue engineering.
Bladder has many important functions as a urine storage and voiding organ. Bladder injury caused by various pathological factors may need bladder reconstruction. Currently the standard procedure for bladder reconstruction is gastrointestinal replacement. However, due to the significant difference in their structure and function, intestinal segment replacement may lead to complications such as hematuria, dysuria, calculi and tumor. With the recent advance in tissue engineering and regenerative medicine, new techniques have emerged for the repair of bladder defects. This paper reviews the recent progress in three aspects of urinary bladder tissue engineering, i.e., seeding cells, scaffolds and growth factors.