Objective To study the effects of estrogen and progesterone and their receptors on the development of gallstone (GS) and primary gallbladder carcinoma (PGC), and probe to the relationship between the biological characteristic of PGC and female hormone and their receptors. Methods The study of PGC related to female hormone was reviewed by history document and experimental study in resently. Results The female hormone influenced human body extensively: they acted on not only the target organs, but also the nontarget organs with their receptors. The action was brought about by their receptors expression. The action intensity was dependent on not only the serum level of female hormone but also their corresponding receptors distributing in organs. The carcinogenic mechanism of estrogen was more clear with the discovery of estrogen-regulating-proteins. Conclusion The estrogen play an important role in the onset and development of GS and PGC. Estrogen and progestrone can inhance the patients′ susceptibility to the cholesterol gallstone and become a high risk factor in causing PGC through inducing their corresponding receptors expression in the gallbladder. Evaluating the effects of estrogen-estrogen receptor-estrogen-regulating-protein on biological characteristic of PGC is significant in guiding clinical endocrine treatment.
Autofluorescence has great advantage on detecting premalignant lesions and early cancers which are not detectable by conventional white light endoscopy (WLE). In this review, the recent advances in autofluorescence for diagnosis of precancerous lesions and early cancers are presented. Varieties of endogenous fluorophores in biological tissues, the potential mechanisms of the autofluorescence differences between normal and abnormal tissues, the selection of light source and optimal excitation wavelengths, and effective algorithms for processing autofluorescence data are highlighted. Finally, the shortages and improvement directions of autofluorescence technique for the diagnosis of precancerous lesions and early cancers are briefly discussed.
Monoclonal gammopathy of renal significance (MGRS) is a group of diseases with different renal damage. It is a new type of renal disease with various types of diseases and complex disease mechanism. In MGRS, due to the clonal proliferation of B lymphoid cells or plasma cells, a large number of monoclonal immunoglobulin (MIg) and/or a large number of free light chain (FLC) appear. Intact MIg can interact with intrinsic cells of glomerulus to change its biology in order to promote the development of renal disease, while monoclonal FLC can potentially alter the function of various cells throughout the nephron. Given the relationship of MIg and monoclonal FLC to MGRS, inhibition of MIg and monoclonal FLC would be a promising approach for the treatment of MGRS. This paper reviews the pathogenesis of MGRS from the sites of renal involvement, including glomerulus, renal tubule-interstitium and renal blood vessel.