ABSTRACT
Retinopathy of prematurity(ROP), an abnormal vascular proliferative retinopathy of prematurity, is a serious condition that can lead to retinal detachment or blindness. With the development of neonatal medicine, the survival rate of low birth weight and low gestational age infants has been increasing, as well as the incidence of ROP. Therefore, studying ROP's pathogenesis and influencing factors is of great clinical importance. Numerous studies have been conducted on the risk factors for ROP, including gestational age, oxygen intake, mode of delivery, neonatal bronchopulmonary dysplasia, and the use of surfactants. At present, it is widely accepted both at home and abroad that preterm birth, low birth weight, and high oxygen concentration after birth are independent risk factors for ROP. In recent years, more and more scholars have found that abnormalities in blood indicators in preterm infants may be associated with the development of ROP. This article reviews the effects of platelets, haemoglobin, blood glucose, inflammatory cells, and lipids on ROP, providing a reference for identifying and preventing risk factors for ROP.
ABSTRACT
Meibomian gland dysfunction is a chronic and diffuse disease of the meibomian glands, characterized by obstruction and(or)abnormal secretion of the terminal ducts. Clinically, it can lead to tear film abnormalities and inflammation of the ocular surface, resulting in symptoms of ocular irritation and potential corneal damage that may impact visual function. Meibomian gland dysfunction can be classified into two types based on meibomian gland secretion: low secretion type and high secretion type. The low secretion type further includes acinar atrophy type and obstruction type. In recent years, research has revealed that patients with diabetes experience chronic damage to their meibomian gland tissue in the early stages of the disease, leading to structural and functional changes. The incidence and severity of meibomian gland dysfunction are higher in diabetic patients. However, there are numerous complex factors contributing to this condition in diabetes patients, and mechanisms remain unclear at present. This article reviews both domestic and international research progress on the pathological mechanism underlying meibomian gland dysfunction in diabetes.
ABSTRACT
Rapidly increasing intraocular pressure(IOP)is a typical manifestation of acute angle-closure glaucoma and an important cause of ocular tissue damage, vision loss and even blindness in glaucoma patients. The sharp increase of intraocular pressure in a short period of time in acute angle-closure glaucoma will cause characteristic damage to the structure and function of retina, choroid and optic nerve. Currently, the diagnosis and evaluation of the course of glaucoma is largely dependent on the state of high IOP, changes in the optic nerve and visual field damage, but irreversible damage to the fundus has already been made in glaucoma patients by this time. The microstructural changes in the posterior segment of the eye are more sensitive to high IOP and often appear before optic nerve and visual field damage, which can indicate the damage of high IOP to the eye earlier. Through the evaluation of the imaging characteristics of the posterior segment of the eye, the morphological characteristics that affect the prognosis of glaucoma can be explored, which is clinically important for the early diagnosis of glaucoma.
ABSTRACT
Objective A simple,specific and rapid LC-MS/MS method was established to determine flumatinib and its two major metabolites in human plasma for clinical therapeutic drug monitoring.Methods The determination was performed on an ACQUITY UPLC HSS T3 column(2.1 mm×50 mm,1.8 μm)with mobile phases consisting of acetonitrile and 10 mmol·L-1 ammonium formate(containing 0.1%formic acid)with gradient elution at the flow rate of 0.5 mL·min-1.The elution time was 6 min.The temperature of the column was 38℃.The ion source was electrospray ion source and the scanning mode was multiple reaction monitoring scanning in positive ion mode.Results The mass concentrations of flumatinib and its metabolites(flumatinib M1 and flumatinib M3)have a good linear relationship within the concentration range investigated.The precision and stability of the method are good.The precision is less than 15%,and the relative deviation is within±15%.The extraction recoveries of flumatinib and its metabolites approach nearly 100%.Conclusion The method is simple and sensitive,and can accurately determine the plasma concentration of flumatinib and its metabolites,providing a basis for clinical rational drug use.
ABSTRACT
Different harvest times of Isatidis Folium had a significant effect on the yield and the quality of Isatidis Radix and Isatidis Folium. The harvest could increase the yield of Isatidis Folium, but reduce the yield of Isatidis Radix, the quality of Isatidis Radix and Isatidis Folium. One, two and three harvests of the Isatidis Folium reduced the yield of Isatidis Radix as 18.3%, 58.6%, 67.4% and increased the yield of the Folium as 107.3%, 86.3% and 116.6%. Ethanol-soluble extract of Isatidis Radix was 42.50%, 42.24%, 31.77%, which were 1.19%, 1.79%, 26.13% lower than those of the control, respectively. The water-soluble extract, indirubin, indigo content reduced with increase of the harvest times. Indirubin contents with two or three times harvests were higher than that of the control, but the content of water-soluble extract, ethanol-soluble extract, indigo were lower than those of the control.