Fetal umbilical vein transplantation for the repair of middle cerebral artery injury

It is necessary to investigate the longitudinal tensile mechanical characteristics of the middle cere- bral artery and the fetal umbilical vein prior to applying fetal umbilical vein transplantation for repair of injured middle cerebral artery. Fifteen fresh fetal umbilical vein specimens and 15 normal human fresh cadaver middle cerebral artery specimens were collected for longitudinal tensile testing at the speed of 0.5 mm/min and at normal human temperature. The results showed that under 16.0 kPa physiological stress, the strain value of fetal umbilical vein specimens was larger, while the maximal stress and elastic modulus values were less than those of middle cerebral artery specimens. Our findings indicate that fetal umbilical vein has good elastic properties and the stress-strain curve of the fetal umbilical vein is similar to that of the middle cerebral artery. Fetal umbilical vein transplan- tation can, therefore, potentially repair the injured middle cerebral artery.

Propofol promotes spinal cord injury repair by bone marrow mesenchymal stem cell transplantation

Propofol is a neuroprotective anesthetic. Whether propofol can promote spinal cord injury repair by bone marrow mesenchymal stem cells remains poorly understood. We used rats to investigate spinal cord injury repair using bone marrow mesenchymal stem cell transplantation combined with propofol administration via the tail vein. Rat spinal cord injury was clearly alleviated; a large number of newborn non-myelinated and myelinated nerve fibers appeared in the spinal cord, the numbers of CM-Dil-labeled bone marrow mesenchymal stem cells and fluorogold-labeled nerve fibers were increased and hindlimb motor function of spinal cord-injured rats was markedly improved. These improvements were more prominent in rats subjected to bone marrow mesenchymal cell transplantation combined with propofol administration than in rats receiving monotherapy. These results indicate that propofol can enhance the therapeutic effects of bone marrow mesenchymal stem cell transplantation on spinal cord injury in rats.

Mesenchymal stem cells: Potential role in corneal wound repair and transplantation

Corneal diseases are a major cause of blindness in the world. Although great progress has been achieved in the treatment of corneal diseases, wound healing after severe corneal damage and immunosuppressive therapy after corneal transplantation remain prob-lematic. Mesenchymal stem cells(MSCs) derived from bone marrow or other adult tissues can differentiate into various types of mesenchymal lineages, such as osteocytes, adipocytes, and chondrocytes, both in vivo and in vitro. These cells can further differentiate into specific cell types under specific conditions. MSCs migrate to injury sites and promote wound healing by secreting anti-inflammatory and growth factors. In ad-dition, MSCs interact with innate and acquired immune cells and modulate the immune response through their powerful paracrine function. Over the last decade, MSCs have drawn considerable attention because of their beneficial properties and promising therapeutic prospective. Furthermore, MSCs have been applied to various studies related to wound healing, autoim-mune diseases, and organ transplantation. This review discusses the potential functions of MSCs in protecting corneal tissue and their possible mechanisms in corneal wound healing and corneal transplantation.

Stem cell transplantation for repair of sciatic nerve injury

Three articles regarding transplantation of umbilical cord mesenchmal stem cells alone or in combination with Schwann cells and feridex and polylysine complex-labeled bone marrow stromal cell transplantation （MRI tracing） for repair of sciatic nerve injury were reported in Neural Regeneration

腰椎间盘髓核组织工程研究进展

腰椎间盘退行性病变(退变)是脊柱外科常见多发疾病之一,临床以腰痛、下肢麻木和大小便功能障碍等为主要症状,其发生发展由多个因素共同决定,但目前病理生理学和细胞生物学机制尚未完全清晰。髓核组织工程是结合生物组织学和材料科学治疗疾病的一种新兴生物疗法,可有效治疗腰椎间盘退变。临床医师正确认识髓核组织工程和腰椎间盘退变之间的复杂关系,了解髓核组织工程在腰椎间盘退变中的应用及其机制,有利于临床上腰椎间盘退变治疗、腰椎间盘退变治疗后康复和人群腰椎间盘退变预防工作开展。

局部带蒂黏膜附着龈重建术和游离龈移植术在口腔种植修复中的疗效

目的探讨局部带蒂黏膜附着龈重建术和游离龈移植术在口腔种植修复中的临床疗效。方法回顾性分析2018年10月至2020年10月收治的92例口腔种植修复患者的病案资料,根据手术治疗方式选择情况的不同,分为重建组(n=46,采取局部带蒂黏膜附着龈重建术)和游离组(n=46,采取游离龈移植术)。评价2种治疗方式的临床效果,比较2组手术前后的菌斑指数、视觉模拟评分(VAS)、出血指数、角化龈宽度。结果2组口腔种植修复患者的种植成功率比较,差异无统计学意义(P>0.05)。重建组术后3、6个月菌斑指数,术后1周VAS评分,术后3个月出血指数与游离组,差异无统计学意义(P>0.05);2组术后菌斑指数、VAS评分、出血指数较术前均显著下降(P<0.05)。重建组术后3、6个月的角化龈宽度低于游离组(P<0.05)。结论局部带蒂黏膜附着龈重建术和游离龈移植术在口腔移植修复中均能达到显著效果,利于种植牙移植固定,且术后菌斑指数、VAS评分、出血指数均显著下降,但后者角化龈宽度移植效果更显著,两种术式各有优劣势,应结合患者具体病情合理选择适宜术式。

人工真皮结合自体刃厚皮片治疗上肢热压伤的疗效观察

目的:探讨人工真皮结合自体刃厚皮片治疗上肢热压伤的临床效果。方法:选择笔者医院2020年6月-2022年3月收治的因热压伤导致上肢皮肤缺损患者12例,其中全层皮肤损伤7例,合并肌腱外露5例。所有患者创面清创切痂后行人工真皮植入术,待人工真皮血管化后行自体刃厚皮片移植修复创面,观察记录术后创面愈合情况、并发症、瘢痕情况及患者满意度。结果:本组12例患者创面一期植入人工真皮后均完成血管化,平均血管化时间19.16(14~21)d,术后7 d创面愈合率96.4%,术后1个月植皮区无感染、血清肿、水疱发生。术后6个月,植皮区及取皮区温哥华瘢痕评分分别为(2.16±2.36)分和(0.95±1.56)分,创面满意度评分为(4.31±0.32)分。结论:使用人工真皮结合自体刃厚皮片治疗上肢热压伤创面,操作简单,效果良好,创面外观满意度高,安全性好。

间充质干细胞疗法在肾移植中的应用:一个未完待续的故事

免疫抑制药是预防器官移植术后排斥反应的主要手段,但会降低机体对病原体的反应能力,导致感染等的风险增加。近年来,间充质干细胞(MSC)疗法在实体器官移植领域的应用备受关注。临床前研究表明,MSC疗法能够延长移植肾存活时间,诱导免疫耐受,加速急性肾损伤修复,促进肾功能恢复。临床试验则验证了MSC疗法的安全性、耐受性和有效性。因此,本文对MSC的一般特性、MSC的免疫调节和组织修复作用以及MSC在肾移植临床试验中的应用进行综述,简要讨论待继续研究的问题和对未来的展望,旨在为推动MSC治疗在临床肾移植中的应用提供参考。

轻中度颅脑损伤致头面部大面积组织缺损游离皮瓣修复术后皮瓣血栓形成危险因素分析

目的分析轻中度颅脑损伤所致头面部大面积组织缺损患者行游离皮瓣移植修复术后,皮瓣血栓形成的危险因素。方法回顾性分析2020年1月至2023年10月,在我院接受游离皮瓣移植修复轻中度颅脑损伤所致头面部大面积组织缺损患者临床资料,根据皮瓣修复术后是否发生皮瓣血栓,将研究对象分为无血栓组和血栓组,运用多因素Logistic回归分析法,分析其血栓形成危险因素。结果共收集到105例患者,皮瓣修复术后发生皮瓣血栓21例(血栓组),发生率为20%,其中动脉血栓8例(38.09%),静脉血栓10例(47.62%),混合血栓3例(14.29%)。单因素分析结果显示,不同年龄、是否合并糖尿病、术前空腹血糖水平、术前术后血压水平、D-二聚体水平、术后是否给予抗凝药物应用、是否加压包扎是皮瓣血栓形成的相关因素。多因素Logistic回归分析结果显示,术前空腹血糖偏高、术后血压水平偏低、D-二聚体水平较高、术后进行加压包扎是轻中度颅脑损伤所致头面部大面积组织缺损患者行游离皮瓣移植修复术后发生皮瓣血栓的危险因素。结论轻中度颅脑损伤所致头面部大面积组织缺损患者行游离皮瓣移植修复术后皮瓣血栓形成发生率较高,术前空腹血糖偏高、术后血压水平偏低、D-二聚体水平较高、术后进行加压包扎是其危险因素,临床应重视其风险评估,尽早采取干预措施,以降低血栓形成风险,提升皮瓣存活率。

骨髓间充质干细胞来源的外泌体静脉移植对脊髓损伤的修复作用研究

目的:分析骨髓间充质干细胞来源的外泌体静脉移植对脊髓损伤的修复作用。方法:选择2013年10月—2014年3月河南省洛阳正骨医院实验室试验的78例大鼠为研究对象,应用随机抛球法将大鼠分为手术组(n=26)、对照组(n=26)、外泌体组(n=26)。通过脊髓法建立大鼠脊髓损伤模型后,对照组不作处理,手术组在对照组的基础上实施切开减压术,而外泌体组在对照组的基础上实施全骨髓培养法培养大鼠BMSCs,收集P2代细胞上清,应用ExoQuickPrecipitation提取法分离并纯化外泌体,通过透射电镜观察鉴定外泌体形态,采用Westernblot鉴定外泌体表面标志蛋白CD9、CD63,在造模1 h后尾静脉给予外泌体移植500μL。分别采用BBB评分、斜板实验在术后1、3、7、14、21、28 d评价大鼠的运动功能恢复情况,并于术后28 d处死试验大鼠,采用苏木精-伊红(HE)染色、髓鞘(LFB)染色观察各组脊髓组织形态学改变,尼氏(Nissl)染色观察神经元存活数目。结果:术后各时间点手术组大鼠BBB评分高于对照组和外泌体组,术后7、14、21、28 d外泌体组大鼠BBB评分高于对照组,差异有统计学意义(P<0.05)。手术组术后各时间点斜板评分高于对照组及外泌体组,差异有统计学意义(P<0.05)。造模后28 d,手术组的脊髓组织HE染色体等均正常,神经元数目减少。结论:BMSCs外泌体静脉移植对脊髓损伤有明显的改善作用,可以提高患者的运动能力,减轻脊髓损伤,加速脊髓损伤的恢复。

腓肠神经营养血管皮瓣修复术治疗开放性踝关节骨折的效果

目的观察腓肠神经营养血管皮瓣修复术治疗开放性踝关节骨折并发组织缺损的效果及对血流动力学、外观满意度的影响。方法以2021年1月至2023年1月医院收治的80例踝关节骨折并发组织缺损患者为研究对象,根据不同手术方法分为两组,各40例。A组接受腓肠神经营养血管皮瓣修复术,B组接受股前外侧皮瓣移植术。比较两组皮瓣肿胀程度、手术前后足部血流动力学[内径、收缩期峰值流速(PSV)、血管舒张期低值流速(EDV)]水平、手术前后足部功能、外观满意度及并发症状况。结果A组皮瓣肿胀、治疗效果优于B组,差异有统计学意义(P<0.05)。与B组相比,术后3个月,A组PSV、内径、EDV指标较高,差异有统计学意义(P<0.05)。A组术后6个月足部功能评分高于B组(P<0.05)。与B组相比,A组术后3、6个月外观满意度评分高(P<0.05)。A组并发症发生率与B组比较,差异无统计学意义(P>0.05)。结论腓肠神经营养血管皮瓣修复术治疗开放性踝关节骨折并发组织缺损,可改善术后血流流速和足部功能,患者外观满意度较高,皮瓣肿胀程度减轻。

Viscoelasticity of repaired sciatic nerve by poly(lactic-co-glycolic acid) tubes

Medical-grade synthetic poly（lactic-co-glycolic acid） polymer can be used as a biomaterial for nerve repair because of its good biocompatibility, biodegradability and adjustable degradation rate. The stress relaxation and creep properties of peripheral nerve can be greatly improved by repair with poly（lactic-co-glycolic acid） tubes. ＂Fen sciatic nerve specimens were harvested from fresh corpses within 24 hours of death, and were prepared into sciatic nerve injury models by creating a 10 mm defect in each specimen. Defects were repaired by anastomosis with nerve autografts and poly（lactic-co-glycolic acid） tubes. Stress relaxation and creep testing showed that at 7 200 seconds the sciatic nerve anastomosed by poly（lactic-co-glycolic acid） tubes exhibited a greater decrease in stress and increase in strain than those anastomosed by nerve autografts. These findings suggest that poly（lactic-co-glycolic acid） exhibits good viscoelasticity to meet the biomechanical require- ments for a biomaterial used to repair sciatic nerve injury.

Chemically extracted acellular allogeneic nerve graft combined with ciliary neurotrophic factor promotes sciatic nerve repair

A chemically extracted acellular allogeneic nerve graft can reduce postoperative immune rejection, similar to an autologous nerve graft, and can guide neural regeneration. However, it remains poorly understood whether a chemically extracted acellular allogeneic nerve graft combined with neurotrophic factors provides a good local environment for neural regeneration. This study investigated the repair of injured rat sciatic nerve using a chemically extracted acellular allogeneic nerve graft combined with ciliary neurotrophic factor. An autologous nerve anastomosis group and a chemical acellular allogeneic nerve bridging group were prepared as controls. At 8 weeks after repair, sciatic functional index, evoked potential amplitude of the soleus muscle, triceps wet weight recovery rate, total number of myelinated nerve fibers and myelin sheath thickness were measured. For these indices, values in the three groups showed the autologous nerve anastomosis group 〉 chemically extracted acellular nerve graft ＋ ciliary neurotrophic factor group 〉 chemical acellular allogeneic nerve bridging group. These results suggest that chemically extracted acellular nerve grafts combined with ciliary neurotrophic factor can repair sciatic nerve defects, and that this repair is inferior to autologous nerve anastomosis, but superior to chemically extracted acellular allogeneic nerve bridging alone.

Microencapsulated Schwann cell transplantation inhibits P2X3 receptor expression in dorsal root ganglia and neuropathic pain

Schwann cell transplantation is a promising method to promote neural repair, and can be used for peripheral nerve protection and myelination. Microcapsule technology largely mitigates immune rejection of transplanted cells. We previously showed that microencapsulated olfactory ensheathing cells can reduce neuropathic pain and we hypothesized that microencapsulated Schwann cells can also inhibit neuropathic pain. Rat Schwann cells were cultured by subculture and then microencapsulated and were tested using a rat chronic constriction injury（CCI） neuropathic pain model. CCI rats were treated with Schwann cells or microencapsulated Schwann cells and were compared with sham and CCI groups. Mechanical withdrawal threshold and thermal withdrawal latency were assessed preoperatively and at 1, 3, 5, 7, 9, 11 and 14 days postoperatively. The expression of P2X3 receptors in L4-5 dorsal root ganglia of the different groups was detected by double-label immunofluorescence on day 14 after surgery. Compared with the chronic constriction injury group, mechanical withdrawal threshold and thermal withdrawal latency were higher, but the expression of P2X3 receptors was remarkably decreased in rats treated with Schwann cells and microencapsulated Schwann cells, especially in the rats transplanted with microencapsulated Schwann cells. The above data show that microencapsulated Schwann cell transplantation inhibits P2X3 receptor expression in L4-5 dorsal root ganglia and neuropathic pain.

Role and prospects of regenerative biomaterials in the repair of spinal cord injury

Axonal junction defects and an inhibitory environment after spinal cord injury seriously hinder the regeneration of damaged tissues and neuronal functions. At the site of spinal cord injury, regenerative biomaterials can fill cavities, deliver curative drugs, and provide adsorption sites for transplanted or host cells. Some regenerative biomaterials can also inhibit apoptosis, inflammation and glial scar formation, or further promote neurogenesis, axonal growth and angiogenesis. This review summarized a variety of biomaterial scaffolds made of natural, synthetic, and combined materials applied to spinal cord injury repair. Although these biomaterial scaffolds have shown a certain therapeutic effect in spinal cord injury repair, there are still many problems to be resolved, such as product standards and material safety and effectiveness.

自体骨软骨移植与踝关节镜微骨折手术治疗距骨骨软骨损伤的疗效分析

目的比较分析自体骨软骨移植与踝关节镜微骨折手术治疗距骨骨软骨损伤的效果。方法将2019年3月-2020年3月收治的80例距骨骨软骨损伤患者作为研究对象,按照随机数表法分为观察组和对照组,每组各40例。对照组采用踝关节镜微骨折手术治疗,观察组采用自体骨软骨移植治疗。记录两组的治疗总有效率、踝关节功能改善情况:踝关节活动度、疼痛程度(采用视觉模拟评分法)、踝关节功能(采用美国足踝外科医师协会评分标准)、供区恢复程度(采用膝关节功能评分量表),及术后不良反应发生情况。结果观察组治疗总有效率为97.5%,明显高于对照组(80.0%),差异有统计学意义(P<0.05);观察组VAS评分为(1.6±0.4)分,明显低于对照组的(2.7±0.7)分;踝关节活动度、AOFAS评分、Harris评分分别为(67.3±4.6)°、(91.5±8.2)分、(95.8±2.6)分,均明显大/高于对照组的(59.7±4.2)°、(82.4±7.8)分、(91.5±2.3)分,差异有统计学意义(P<0.05);两组不良反应总发生率分别为7.5%、12.5%,差异无统计学意义(P>0.05)。结论自体骨软骨移植治疗距骨骨软骨损伤疗效显著,可有效修复患者软骨,改善踝关节功能,且不会增加不良反应的发生率,安全可靠,具有临床应用价值,值得推广。

Peripheral nerve repair: a hot spot analysis on treatment methods from 2010 to 2014

Therapeutic strategies for neurological deficits and for promoting nerve regeneration after peripheral nerve injuries have received much focus in clinical research. Advances in basic research in recent years have increased our understanding of the anatomy of peripheral nerves and the importance of the microenvironment. Various new intervention methods have been developed, but with varying effectiveness. In the present study, we selected 911 papers on different repair methods for peripheral nerve injury from the Web of Science and indexed in the Science Citation Index from 2010 to 2014. We quantitatively examine new repair methods and strategies using bibliometrics, and we discuss the present state of knowledge and the problems and prospects of various repair methods, including nerve transfer, neural transplantation, tissue engineering and genetic engineering. Our findings should help in the study and development of repair methods for peripheral nerve injury.

Hyperbaric oxygen therapy combined with Schwann cell transplantation promotes spinal cord injury recovery

Schwann cell transplantation and hyperbaric oxygen therapy each promote recovery from spinal cord injury, but it remains unclear whether their combination improves therapeutic results more than monotherapy. To investigate this, we used Schwann cell transplantation via the tail vein, hyperbaric oxygen therapy, or their combination, in rat models of spinal cord contusion injury. The combined treatment was more effective in improving hindlimb motor function than either treatment alone; injured spinal tissue showed a greater number of neurite-like structures in the injured spinal tissue, somatosensory and motor evoked potential latencies were notably shorter, and their amplitudes greater, after combination therapy than after monotherapy. These findings indicate that Schwann cell transplantation combined with hyperbaric oxygen therapy is more effective than either treatment alone in promoting the recovery of spinal cord in rats after injury.

Allograft pretreatment for the repair of sciatic nerve defects: green tea polyphenols versus radiation

Pretreatment of nerve allografts by exposure to irradiation or green tea polyphenols can elimi- nate neuroimmunogenicity, inhibit early immunological rejection, encourage nerve regeneration and functional recovery, improve tissue preservation, and minimize postoperative infection. In the present study, we investigate which intervention achieves better results. We produced a 1.0 cm sciatic nerve defect in rats, and divided the rats into four treatment groups： autograft, fresh nerve allograft, green tea polyphenol-pretreated （1 mg/mL, 4~C） nerve allograft, and irradiation-pre- treated nerve allograft （26.39 Gy/min for 12 hours; total 19 kGy）. The animals were observed, and sciatic nerve electrophysiology, histology, and transmission electron microscopy were carried out at 6 and 12 weeks after grafting. The circumference and structure of the transplanted nerve in rats that received autografts or green tea polyphenol-pretreated nerve allografts were similar to those of the host sciatic nerve. Compared with the groups that received fresh or irradiation-pre- treated nerve allografts, motor nerve conduction velocity in the autograft and fresh nerve allograft groups was greater, more neurites grew into the aUografts, Schwann cell proliferation was evident, and a large number of new blood vessels was observed; in addition, massive myelinated nerve fibers formed, and abundant microfilaments and microtubules were present in the axoplasm. Our findings indicate that nerve allografts pretreated by green tea polyphenols are equivalent to trans- planting autologous nerves in the repair of sciatic nerve defects, and promote nerve regeneration. Pretreatment using green tea polyphenols is better than pretreatment with irradiation.

Mitochondrial Organelle Transplantation Is a Potential Therapeutic for Mitochondria Dysfunction in Severe Acute Respiratory Syndrome (SARS) Coronavirus Diseases

COVID-19 severe symptoms and high mortality are mainly seen in elders with age-associated diseases who have mitochondrial dysfunction. Mitochondrial dysfunction is a vulnerability and comorbidity of COVID-19. Cytokine storm, and increased serum iron and ferritin and reactive oxygen species (ROS) in COVID-19 further damage mitochondria. Amelioration of mitochondrial dysfunction may be a strategy of prevention and treatment of COVID-19. We also describe mitochondrial organelle transplantation (MOT) which has restored mitochondrial function, improved the repair of injured tissues and suppressed hyperinflammation in life-threatening sepsis. MOT is a potential therapy for severe COVID-19. Finally, we report the first case of MOT for a severe COVID-19 patient. MOT is safe and might have beneficial effect on the severe COVID-19.