Neuron glia antigen-2(NG2)glia,also known as oligodendrocyte precursor cells(OPCs),are essential for maintaining the normal function and structure of the central nervous system(CNS)due to their supportive role[1].Unde...Neuron glia antigen-2(NG2)glia,also known as oligodendrocyte precursor cells(OPCs),are essential for maintaining the normal function and structure of the central nervous system(CNS)due to their supportive role[1].Under physiological conditions,NG2 glia are involved in myelination by differentiating into oligodendrocytes,which are responsible for forming the myelin sheath around axons[2].In addition,the NG2 glia can directly influence the activity of neuronal circuits by receiving synaptic input from neurons and generating action potentials[3].Under pathological conditions,such as in response to injury or disease,the NG2 glia proliferate and differentiate to replace damaged oligodendrocytes,contributing to the repair and regeneration of myelin[4].展开更多
Blood flow is essential for maintaining normal physiological functions of the human body.Endoscopic laser speckle contrast imaging(LSCI)can achieve rapid,high-resolution,label-free,and long-term blood flow perfusion v...Blood flow is essential for maintaining normal physiological functions of the human body.Endoscopic laser speckle contrast imaging(LSCI)can achieve rapid,high-resolution,label-free,and long-term blood flow perfusion velocity monitoring in minimally invasive surgery.However,conventional endoscopic LSCI uses a lowcoherence laser illumination scheme,leading to restricted angles of illumination,compromised laser coherence,uneven laser illumination distribution,and low coupling efficiency,all of which degrade the quality of LSCI in the endoscope.In this paper,we propose that conical fiber(CF)-coupled high-coherence laser can be used to achieve large-angle,high-coherence,high-uniformity,and high coupling efficiency laser illumination in the endoscope.Additionally,we establish an effective model for calculating the divergence angle of CFs.Through phantom and animal experiments,we reveal that laser illumination based on CF markedly enhances endoscopic LSCI performance.This technology broadens the imaging field of view,enhances the signal-to-noise ratio,enables more sensitive detection of minute blood flow changes,expands the detectable flow range,and improves signal-to-background ratio of endoscopic LSCI.Our findings suggest that CF-based laser illumination stands as a highly promising advancement in endoscopic LSCI.展开更多
基金supported by the National Natural Science Foundation of China(32300959)a Guangzhou Scientific Research Grant(SL2024A04J00578)the SCNU Young Faculty Development Program(22KJ04).
文摘Neuron glia antigen-2(NG2)glia,also known as oligodendrocyte precursor cells(OPCs),are essential for maintaining the normal function and structure of the central nervous system(CNS)due to their supportive role[1].Under physiological conditions,NG2 glia are involved in myelination by differentiating into oligodendrocytes,which are responsible for forming the myelin sheath around axons[2].In addition,the NG2 glia can directly influence the activity of neuronal circuits by receiving synaptic input from neurons and generating action potentials[3].Under pathological conditions,such as in response to injury or disease,the NG2 glia proliferate and differentiate to replace damaged oligodendrocytes,contributing to the repair and regeneration of myelin[4].
基金National Key Research and Development Program of China(2021YFC2400102)National Natural Science Foundation of China(62275095,82261138559,62305125,61890951,61890950)+2 种基金Hainan University Research Startup Fund(KYQD(ZR)20072,KYQD(ZR)22074)Chinese Academy of Medical Sciences Initiative for Innovative Medicine(2019-I2M-5-014)Innovation Fund of WNLO。
文摘Blood flow is essential for maintaining normal physiological functions of the human body.Endoscopic laser speckle contrast imaging(LSCI)can achieve rapid,high-resolution,label-free,and long-term blood flow perfusion velocity monitoring in minimally invasive surgery.However,conventional endoscopic LSCI uses a lowcoherence laser illumination scheme,leading to restricted angles of illumination,compromised laser coherence,uneven laser illumination distribution,and low coupling efficiency,all of which degrade the quality of LSCI in the endoscope.In this paper,we propose that conical fiber(CF)-coupled high-coherence laser can be used to achieve large-angle,high-coherence,high-uniformity,and high coupling efficiency laser illumination in the endoscope.Additionally,we establish an effective model for calculating the divergence angle of CFs.Through phantom and animal experiments,we reveal that laser illumination based on CF markedly enhances endoscopic LSCI performance.This technology broadens the imaging field of view,enhances the signal-to-noise ratio,enables more sensitive detection of minute blood flow changes,expands the detectable flow range,and improves signal-to-background ratio of endoscopic LSCI.Our findings suggest that CF-based laser illumination stands as a highly promising advancement in endoscopic LSCI.
