Objective To explore the predictive value of Kinetics of white blood cell (WBC) elimination following induction chemotherapy for eider with acute myeloid leukemia(AML). Methods 71 elder with AML were reviewed. Chi-square and the Kaplan-Meier methods were used to identify the relationship between the nadir WBC count and time to WBC nadir with efficacy and survival. Results 28 patients (39.44%) achieved a complete re-mission(CR),another 19 (26.76%) had a partial remission,17(23.94%) patients had a non-remission,and 7 pa-tients(9.86%)died. Overall survival over 3 years was about 11.27% (8 cases),over 2 years about 23.94 % (17 cases),and over 1 years about 47.89 % (34 cases). The low WBC nadir and high WBC nadir in the bone marrow CR (9.86% and 12.68%)and the total survival rate (8.45% and 11.27%)were lower than the median absolute WBC nadir (16.90%, 15.49%), but were no statistical discrepancy (χ23.32,1.22, P=0.77, 0.54). The pa-tients who achieved WBC nadir in less than or equal to 10 days in the bone marrow CR(12.68%) and the total sur-vival rate(8.45%) were statistical significantly higher than those achieved it in greater than 10 days(26.76%). The patients whose WBC attained at low level less than or equal to 3 days in the bone marrow CR(16.90%) and the total survival rate(12.68%) were statistical significantly higher than those greater than 3 days (22.54%) (χ2 15, 57,11.71,4.85,9.54,P=0.001,0.01,0.03,0.04). Conclusion WBC nadir in loss than or equal to 10 days and WBC attained at low level greater than 3 days may serve as a worse prognosis.

Biologic scaffold materials composed of extracellular matrix (ECM) are typically obtained in processes that involve decellularization of tissues or organs. Decellularized tissues and organs have been successfully used in a variety of tissue engineering/regenerative medicine applications. Preservation of the complex composition and three-dimensional ultrastructure of the ECM is highly desirable but it is recognized that all methods of decellularization result in disruption of the structure and potential loss of composition. The efficiency of cell removal from a tissue is dependent on the origin of the tissue and the physical, chemical, and enzymatic methods that are used. Each of these treatments affects the biochemical composition, tissue ultrastructure, and mechanical behavior of the remaining ECM scaffold, and all of the treatment methods affect the host response to the material as well. Tissue decellularization with preservation of ECM integrity and bioactivity can be optimized by making correct decisions regarding the agents and techniques utilized during processing. In this paper, the most commonly used decellularization methods are described, and consideration given to the effects of these methods upon the biologic scaffold material and recently described antigen removal strategy are presented.
Acellular Dermis ; Animals ; Cell Death ; drug effects ; Cell Separation ; Extracellular Matrix ; chemistry ; Humans ; Tissue Engineering ; methods ; Tissue Scaffolds

The study aimed to evaluate the safety and function of poly(lactic-acid-co-ε-caprolactone) (PLCL)/fibrinogen nanofibers (P/F-Ns), and provide theoretical basis for the clinical application. The surface morphology, mechanical properties, the hydrophilicity and the fibrinogen content of P/F-Ns were tested by scanning electron microscope, the material testing machine, the contact angle meter and the microplate reader, respectively. The cell adhesion, proliferation and ligament remodeling genes expression of Hig-82 cells on P/F-Ns were conducted through cell counting kit-8 (CCK-8) and real-time quantitative PCR analyses, respectively. The results showed that with the increase of the fibrinogen content, the pore sizes and hydrophilicity of three P/F-Ns increased, but the mechanical properties decreased. Cell adhesion and proliferation tests showed that P/F-N-2 held the best ability to promote cell adhesion and proliferation. The ligament remodeling genes expressions of Hig-82 cells on P/F-N-1, P/F-N-2 and P/F-N-3 were all up-regulated compared to P/F-N-0 on days 3 and 7. All the three P/F-Ns containing fibrinogen (P/F-N-1, P/F-N-2 and P/F-N-3) had better biocompatibility compared to P/F-N-0, and could be efficiently applied to the reconstruction of anterior cruciate ligament.
Anterior Cruciate Ligament Reconstruction ; Cell Adhesion ; Fibrinogen ; Materials Testing ; Nanofibers