Objective To anatomically reconstruct the oculomotor nerve, trochlear nerve, and abducent nerve by skull base surgery. Methods Seventeen cranial nerves (three oculomotor nerves, eight trochlear nerves and six abducent...Objective To anatomically reconstruct the oculomotor nerve, trochlear nerve, and abducent nerve by skull base surgery. Methods Seventeen cranial nerves (three oculomotor nerves, eight trochlear nerves and six abducent nerves) were injured and anatomically reconstructed in thirteen skull base operations during a period from 1994 to 2000. Repair techniques included end-to-end neurosuture or fibrin glue adhesion, graft neurosuture or fibrin glue adhesion. The relationships between repair techniques and functional recovery and the related factors were analyzed.Results Functional recovery began from 3 to 8 months after surgery. During a follow-up period of 4 months to 6 years, complete recovery of function was observed in 6 trochlear nerves (75%) and 4 abducent nerves (67%), while partial functional recovery was observed in the other cranial nerves including 2 trochlear nerves, 2 abducent nerves, and 3 oculomotor nerves.Conclusions Complete or partial functional recovery could be expected after anatomical neurotization of an injured oculomotor, trochlear or abducent nerve. Our study demonstrated that, in terms of functional recovery, trochlear and abducent nerves are more responsive than oculomotor nerves, and that end-to-end reconstruction is more efficient than graft reconstruction. These results encourage us to perform reconstruction for a separated cranial nerve as often as possible during skull base surgery.展开更多
Recent evidence highlights multifaceted biological needs to recapitulate the bone microenvironment for bone regeneration.Neurotization has great potential for realizing multi-system modulations in bone tissue engineer...Recent evidence highlights multifaceted biological needs to recapitulate the bone microenvironment for bone regeneration.Neurotization has great potential for realizing multi-system modulations in bone tissue engineering(BTE).However,a neural strategy involving all the key bone repair steps temporally has not yet been reported.In this study,we reported the neural tissue engineering hydrogel-encapsulated Schwann cell-derived exosomes(SC Exo).This sustained-release SC Exo system prominently enhanced bone regeneration by promoting innervation,immunoregulation,vascularization,and osteogenesis in vivo.Moreover,the in vitro results further confirmed that this system significantly induced M2 polarization of macrophages,tube formation of HUVECs,and BMSCs osteogenic differentiation.Furthermore,BMSCs osteogenesis was promoted by upregulating the TGF-β1/SMAD2/3 signaling pathway.In summary,a novel cell-free and easily prepared SC Exo neural engineering was successfully developed to promote bone regeneration by orchestrating the entire bone healing microenvironment,which may provide a new strategy for tissue engineering and clinical treatment of bone defects.展开更多
The aim of our minireview is to provide a brief overview of the diagnosis,clinical aspects,treatment options,management,and current literature available regarding herpes simplex keratitis(HSK).This type of corneal vir...The aim of our minireview is to provide a brief overview of the diagnosis,clinical aspects,treatment options,management,and current literature available regarding herpes simplex keratitis(HSK).This type of corneal viral infection is caused by the herpes simplex virus(HSV),which can affect several tissues,including the cornea.One significant aspect of HSK is its potential to cause recurrent episodes of inflammation and damage to the cornea.After the initial infection,the HSV can establish a latent infection in the trigeminal ganglion,a nerve cluster near the eye.The virus may remain dormant for extended periods.Periodic reactivation of the virus can occur,leading to recurrent episodes of HSK.Factors triggering reactivation include stress,illness,immunosuppression,or trauma.Recurrent episodes can manifest in different clinical patterns,ranging from mild epithelial involvement to more severe stromal or endothelial disease.The severity and frequency of recurrences vary among individuals.Severe cases of HSK,especially those involving the stroma and leading to scarring,can result in vision impairment or even blindness in extreme cases.The cornea's clarity is crucial for good vision,and scarring can compromise this,potentially leading to visual impairment.The management of HSK involves not only treating acute episodes but also implementing long-term strategies to prevent recurrences and attempt repairs of corneal nerve endings via neurotization.Antiviral medications,such as oral Acyclovir or topical Ganciclovir,may be prescribed for prophylaxis.The immune response to the virus can contribute to corneal damage.Inflammation,caused by the body's attempt to control the infection,may inadvertently harm the corneal tissues.Clinicians should be informed about triggers and advised on measures to minimize the risk of reactivation.In summary,the recurrent nature of HSK underscores the importance of both acute and long-term management strategies to preserve corneal health and maintain optimal visual function.展开更多
There is no effective treatment for hemiplegia after hypertensive intracerebral hemorrhage.Considering that the branches of L4 nerve roots in the lumbar plexus root control the movement of the lower extremity anterior...There is no effective treatment for hemiplegia after hypertensive intracerebral hemorrhage.Considering that the branches of L4 nerve roots in the lumbar plexus root control the movement of the lower extremity anterior and posterior muscles,we investigated a potential method of nerve repair using the L4 nerve roots.Rat models of hindlimb hemiplegia after a hypertensive intracerebral hemorrhage were established by injecting autogenous blood into the posterior limb of internal capsule.The L4 nerve root on the healthy side of model rats was transferred and then anastomosed with the L4 nerve root on the affected side to drive the extensor and flexor muscles of the hindlimbs.We investigated whether this method can restore the flexible movement of the hindlimbs of paralyzed rats after hypertensive intracerebral hemorrhage.In a beam-walking test and ladder rung walking task,model rats exhibited an initial high number of slips,but improved in accuracy on the paretic side over time.At 17 weeks after surgery,rats gained approximately 58.2%accuracy from baseline performance and performed ankle motions on the paretic side.At 9 weeks after surgery,a retrograde tracing test showed a large number of fluoro-gold-labeled motoneurons in the left anterior horn of the spinal cord that supports the L4-to-L4 nerve roots.In addition,histological and ultramicrostructural findings showed axon regeneration of motoneurons in the anterior horn of the spinal cord.Electromyography and paw print analysis showed that denervated hindlimb muscles regained reliable innervation and walking coordination improved.These findings suggest that the L4-to-L4 nerve root transfer method for the treatment of hindlimb hemiplegia after hypertensive intracerebral hemorrhage can improve the locomotion of hindlimb major joints,particularly of the distal ankle.Findings from study support that the L4-to-L4 nerve root transfer method can effectively repair the hindlimb hemiplegia after hypertensive intracerebral hemorrhage.All animal experiments were approved by the 展开更多
Background and Objective:Corneal neurotization is a novel surgical technique used to restore corneal sensation in patients with neurotrophic keratopathy.Neurotrophic keratopathy is a disorder characterized by dysfunct...Background and Objective:Corneal neurotization is a novel surgical technique used to restore corneal sensation in patients with neurotrophic keratopathy.Neurotrophic keratopathy is a disorder characterized by dysfunction of the ophthalmic division of the trigeminal nerve,which provides sensory innervation to the cornea.Without sensation,the cornea is at risk of infection,ulceration,perforation,and ultimately,vision loss.Corneal neurotization has emerged as an innovative technique to reinnervate anesthetized corneas by transferring a healthy donor nerve to the affected eye around the corneoscleral limbus.As the field of corneal neurotization rapidly grows,there is a need to synthesize the existing body of literature on corneal neurotization and identify important areas for further research.In this review,we will discuss neurotrophic keratopathy and its current management strategies,followed by an overview of corneal neurotization techniques,outcomes,surgical considerations,and future directions.Methods:PubMed and Google Scholar searches were conducted to retrieve and analyze relevant original papers and reviews on neurotrophic keratopathy and corneal neurotization up until April 2022.Key Content and Findings:Currently,numerous techniques for corneal neurotization exist,including direct nerve transfers,as well as indirect neurotization via interposition nerve grafts.So far,corneal neurotization has been shown to be highly successful in restoring corneal sensation,improving visual acuity,and improving corneal epithelial health.To date,there have been no significant differences in outcomes between direct versus indirect neurotization techniques,different donor nerves,or autologous versus allogeneic interposition grafts.However,there is some evidence that corneal neurotization procedures may be more successful in pediatric patients.Conclusions:Corneal neurotization shows great promise in treating neurotrophic corneas and represents the first management option to date that addresses the underlying pathophysiological me展开更多
In modern neuroscience,the most relevant is the study of the problem of reinnervation of tissues after severe injuries.Complete restoration of lost physiological functions is still impossible with lesions of periphera...In modern neuroscience,the most relevant is the study of the problem of reinnervation of tissues after severe injuries.Complete restoration of lost physiological functions is still impossible with lesions of peripheral nerves with the formation of extensive diastasis between their proximal and distal sites.In this case,the standard neurorrhaphy cannot be carried out because of the eruption of the filaments during tension and convergence of the ends.To solve this problem,a technique was developed for autotransplantation of the nerve sections,which is still the gold standard for the reconstruction of extensive nerve defects.However,the presence of significant shortcomings led to the development of the doctrine of the direction of regeneration with the help of conduits.Currently,the use of nerve channels is the most promising technology for peripheral nerve repair after trauma.The most actively developing now is the direction of reinnervation,such as neurotization.Neurotization,in some way,combined all the methods of restoring nerves.The overall goal of all these methods—the restoration of extensive nerve defects—allows them to be combined into a new industry:reinnervating neurosurgery.展开更多
基金ThisstudywassupportedbyagrantfromtheChineseNationalNaturalScienceFoundation (No .3 0 0 0 0 170 )
文摘Objective To anatomically reconstruct the oculomotor nerve, trochlear nerve, and abducent nerve by skull base surgery. Methods Seventeen cranial nerves (three oculomotor nerves, eight trochlear nerves and six abducent nerves) were injured and anatomically reconstructed in thirteen skull base operations during a period from 1994 to 2000. Repair techniques included end-to-end neurosuture or fibrin glue adhesion, graft neurosuture or fibrin glue adhesion. The relationships between repair techniques and functional recovery and the related factors were analyzed.Results Functional recovery began from 3 to 8 months after surgery. During a follow-up period of 4 months to 6 years, complete recovery of function was observed in 6 trochlear nerves (75%) and 4 abducent nerves (67%), while partial functional recovery was observed in the other cranial nerves including 2 trochlear nerves, 2 abducent nerves, and 3 oculomotor nerves.Conclusions Complete or partial functional recovery could be expected after anatomical neurotization of an injured oculomotor, trochlear or abducent nerve. Our study demonstrated that, in terms of functional recovery, trochlear and abducent nerves are more responsive than oculomotor nerves, and that end-to-end reconstruction is more efficient than graft reconstruction. These results encourage us to perform reconstruction for a separated cranial nerve as often as possible during skull base surgery.
基金This work was supported by National Natural Science Foundation of China.(No.82170960,81870769,51973243,52173150 and 82201098)Guangdong Basic and Applied Basic Research Foundation(No.2019A1515110379 and 2021A1515010782)the Shenzhen Basic Research Project(JCYJ20190807155801657).
文摘Recent evidence highlights multifaceted biological needs to recapitulate the bone microenvironment for bone regeneration.Neurotization has great potential for realizing multi-system modulations in bone tissue engineering(BTE).However,a neural strategy involving all the key bone repair steps temporally has not yet been reported.In this study,we reported the neural tissue engineering hydrogel-encapsulated Schwann cell-derived exosomes(SC Exo).This sustained-release SC Exo system prominently enhanced bone regeneration by promoting innervation,immunoregulation,vascularization,and osteogenesis in vivo.Moreover,the in vitro results further confirmed that this system significantly induced M2 polarization of macrophages,tube formation of HUVECs,and BMSCs osteogenic differentiation.Furthermore,BMSCs osteogenesis was promoted by upregulating the TGF-β1/SMAD2/3 signaling pathway.In summary,a novel cell-free and easily prepared SC Exo neural engineering was successfully developed to promote bone regeneration by orchestrating the entire bone healing microenvironment,which may provide a new strategy for tissue engineering and clinical treatment of bone defects.
文摘The aim of our minireview is to provide a brief overview of the diagnosis,clinical aspects,treatment options,management,and current literature available regarding herpes simplex keratitis(HSK).This type of corneal viral infection is caused by the herpes simplex virus(HSV),which can affect several tissues,including the cornea.One significant aspect of HSK is its potential to cause recurrent episodes of inflammation and damage to the cornea.After the initial infection,the HSV can establish a latent infection in the trigeminal ganglion,a nerve cluster near the eye.The virus may remain dormant for extended periods.Periodic reactivation of the virus can occur,leading to recurrent episodes of HSK.Factors triggering reactivation include stress,illness,immunosuppression,or trauma.Recurrent episodes can manifest in different clinical patterns,ranging from mild epithelial involvement to more severe stromal or endothelial disease.The severity and frequency of recurrences vary among individuals.Severe cases of HSK,especially those involving the stroma and leading to scarring,can result in vision impairment or even blindness in extreme cases.The cornea's clarity is crucial for good vision,and scarring can compromise this,potentially leading to visual impairment.The management of HSK involves not only treating acute episodes but also implementing long-term strategies to prevent recurrences and attempt repairs of corneal nerve endings via neurotization.Antiviral medications,such as oral Acyclovir or topical Ganciclovir,may be prescribed for prophylaxis.The immune response to the virus can contribute to corneal damage.Inflammation,caused by the body's attempt to control the infection,may inadvertently harm the corneal tissues.Clinicians should be informed about triggers and advised on measures to minimize the risk of reactivation.In summary,the recurrent nature of HSK underscores the importance of both acute and long-term management strategies to preserve corneal health and maintain optimal visual function.
基金the National Natural Science Foundation of China,No.81171147(to LXL)“Key Medical Talents of Qiangwei Project”Research Foundation of Health Department of Jiangsu Province,No.ZDRCA2016010(to LXL)+3 种基金“Xingwei Project”Key Personal Medical Research Foundation of Health Department of Jiangsu Province,No.RC201156(to LXL)Jiangsu Province’s Key Discipline of Medicine,No.XK201117(to LXL)the Priority Academic Program Development of Jiangsu Higher Education Institutions,PAPD(to LXL)the Natural Science Foundation of Jiangsu Province,No.BK20171064(to BSH).
文摘There is no effective treatment for hemiplegia after hypertensive intracerebral hemorrhage.Considering that the branches of L4 nerve roots in the lumbar plexus root control the movement of the lower extremity anterior and posterior muscles,we investigated a potential method of nerve repair using the L4 nerve roots.Rat models of hindlimb hemiplegia after a hypertensive intracerebral hemorrhage were established by injecting autogenous blood into the posterior limb of internal capsule.The L4 nerve root on the healthy side of model rats was transferred and then anastomosed with the L4 nerve root on the affected side to drive the extensor and flexor muscles of the hindlimbs.We investigated whether this method can restore the flexible movement of the hindlimbs of paralyzed rats after hypertensive intracerebral hemorrhage.In a beam-walking test and ladder rung walking task,model rats exhibited an initial high number of slips,but improved in accuracy on the paretic side over time.At 17 weeks after surgery,rats gained approximately 58.2%accuracy from baseline performance and performed ankle motions on the paretic side.At 9 weeks after surgery,a retrograde tracing test showed a large number of fluoro-gold-labeled motoneurons in the left anterior horn of the spinal cord that supports the L4-to-L4 nerve roots.In addition,histological and ultramicrostructural findings showed axon regeneration of motoneurons in the anterior horn of the spinal cord.Electromyography and paw print analysis showed that denervated hindlimb muscles regained reliable innervation and walking coordination improved.These findings suggest that the L4-to-L4 nerve root transfer method for the treatment of hindlimb hemiplegia after hypertensive intracerebral hemorrhage can improve the locomotion of hindlimb major joints,particularly of the distal ankle.Findings from study support that the L4-to-L4 nerve root transfer method can effectively repair the hindlimb hemiplegia after hypertensive intracerebral hemorrhage.All animal experiments were approved by the
文摘Background and Objective:Corneal neurotization is a novel surgical technique used to restore corneal sensation in patients with neurotrophic keratopathy.Neurotrophic keratopathy is a disorder characterized by dysfunction of the ophthalmic division of the trigeminal nerve,which provides sensory innervation to the cornea.Without sensation,the cornea is at risk of infection,ulceration,perforation,and ultimately,vision loss.Corneal neurotization has emerged as an innovative technique to reinnervate anesthetized corneas by transferring a healthy donor nerve to the affected eye around the corneoscleral limbus.As the field of corneal neurotization rapidly grows,there is a need to synthesize the existing body of literature on corneal neurotization and identify important areas for further research.In this review,we will discuss neurotrophic keratopathy and its current management strategies,followed by an overview of corneal neurotization techniques,outcomes,surgical considerations,and future directions.Methods:PubMed and Google Scholar searches were conducted to retrieve and analyze relevant original papers and reviews on neurotrophic keratopathy and corneal neurotization up until April 2022.Key Content and Findings:Currently,numerous techniques for corneal neurotization exist,including direct nerve transfers,as well as indirect neurotization via interposition nerve grafts.So far,corneal neurotization has been shown to be highly successful in restoring corneal sensation,improving visual acuity,and improving corneal epithelial health.To date,there have been no significant differences in outcomes between direct versus indirect neurotization techniques,different donor nerves,or autologous versus allogeneic interposition grafts.However,there is some evidence that corneal neurotization procedures may be more successful in pediatric patients.Conclusions:Corneal neurotization shows great promise in treating neurotrophic corneas and represents the first management option to date that addresses the underlying pathophysiological me
文摘In modern neuroscience,the most relevant is the study of the problem of reinnervation of tissues after severe injuries.Complete restoration of lost physiological functions is still impossible with lesions of peripheral nerves with the formation of extensive diastasis between their proximal and distal sites.In this case,the standard neurorrhaphy cannot be carried out because of the eruption of the filaments during tension and convergence of the ends.To solve this problem,a technique was developed for autotransplantation of the nerve sections,which is still the gold standard for the reconstruction of extensive nerve defects.However,the presence of significant shortcomings led to the development of the doctrine of the direction of regeneration with the help of conduits.Currently,the use of nerve channels is the most promising technology for peripheral nerve repair after trauma.The most actively developing now is the direction of reinnervation,such as neurotization.Neurotization,in some way,combined all the methods of restoring nerves.The overall goal of all these methods—the restoration of extensive nerve defects—allows them to be combined into a new industry:reinnervating neurosurgery.
