Objective To study the effects of porous prothesis with radial gradient and homogenized structures on stress transmission in the tibia by using finite element method.Methods Based on the reverse engineering technology,the tibial model was constructed,and the bionic trabecular bone structure prosthesis with gradient change of pore edge diameter and the homogeneous bionic trabecular bone structure prosthesis were designed.The Vicon dynamic capture platform was used to obtain the human gait and the axial force of the tibia-femoral joint during flexion,which was imported into ANSYS Workbench as a boundary condition for mechanical performance analysis.Results In the case of proximal defect,the von Mises stress of the bone for prosthesis with radial gradient structure was increased by 3.68 MPa,and that in the case of distal defect was increased by 7.34 MPa.Compared with the homogenized prosthesis,the von Mises stress of the proximal and distal defects was decreased by 171 MPa and 190.4 MPa,respectively.Conclusions The stress of the radial gradient structure prosthesis diffuses from the outside to the middle high porosity area along the prosthesis,which can effectively transfer the tibial plateau load,reduce stress concentration of the prosthesis,improve bone stress and prolong service life of the prosthesis.This study provides a theoretical reference for clinical prosthesis replacement.

N7-methylguanosine(m7G)modification occurs at the 5'cap of mRNA in eukaryotes,and is also found at specific sites on tRNA and rRNA,showing wide conservation across various biological organisms.Aberrant m7G modification is involved in the dysregulation of gene expression and serves as a biomarker for multiple cancers,with significant potential for applications in tumor diagnosis and therapy.This review summarizes the biological functions and regulatory mechanisms of m7G modification,and outlines its potential clinical applications.It also highlights the oncogenic roles of aberrant m7G modification and its association with prognosis,providing a detailed discussion of the role and molecular mechanisms of abnormal m7G modification in regulating drug resistance in various cancers.

Renal cancer is a common and increasingly prevalent malignancy with a complex pathogenesis influenced by genetics,smoking,and obesity.Current treatment mainly involves surgery with adjunctive chemotherapy,radiation,and immunotherapy,but high rates of recurrence and metastasis indicate its limited effectiveness,emphasizing the need for better therapeutic targets.Growing evidence indicates that epigenetic modifications,particularly RNA modifications,play a critical role in renal cancer development and progression.This review highlights recent advances in renal cancer epigenetics,focusing on RNA modifications such as N6-methyladenosine(m6 A),N7-methylguanosine(m7G),5-methylcytosine(m5C),N1-methyladenosine(m1A),adenosine-to-inosine(A-to-I),N6,2'-O-dimethyladenosine(m6Am),and N4-acetylcytidine(ac4C),along with their regulatory factors.It also explores the diagnostic and therapeutic potential of targeting RNA modifications and associated proteins.

Objective:To observe the clinical effect of comprehensive reconstruction of grades Ⅰ-Ⅱ thumb and finger defects with hallux osteo-onychocutaneous flaps of great toe.Methods:This is a retrospective study. From June 2020 to December 2023, comprehensive reconstruction surgery for Grade Ⅰ-Ⅱ digital defect were performed with hallux osteo-onychocutaneous flaps of great toe for 3 thumbs and 7 fingers in 9 patients in the Department of Hand and Microsurgery of Baoji Third Hospital. Causes of digital injury were: 4 of machine crush, 3 of electric saw cut, 1 of door crush, and 1 of electrical burn. There were 6 grade I digital defects (beyond the nail root) and 4 grade Ⅱ defects (last segment of digit). The defects of the digits were reconstructed by taking references of the shape and structure of the contralateral normal thumbs and fingers. Then the hallux osteo-onychocutaneous flaps of great toe were designed and harvested accordingly from the left and right great toes. Donor sites were covered by skin grafting or local dressing change. One patient was treated in emergency surgery, 6 in sub-emergency surgery and 2 in elective surgery. Integrated perioperative patient management was provided to all of the patients. Postoperative follow-ups were conducted through the visit of outpatient clinic, telephone calls or WeChat interviews. Flap survival, appearance and sensation recovery were evaluated according to the Evaluation Standard of Upper Limb Functional of Hand Surgery of Chinese Medical Association.Results:Vascular insufficiency of 1 digit occurred in surgery, and relieved by local treatment with lidocaine and warm saline. All 10 digits successfully survived, and all donor sites healed spontaneously. The postoperative follow-up period was 10 to 30 months, with an average of 18 months. One transferred nail was found in poor appearance (not flat), the rest of the reconstructed digits were good in appearance and function. The nail, finger print and fine sensation (TPD 5~8 mm), as well as digital flexion, extension, grasping and opposition of the reconstructed digits were all good. According to the Evaluation Standard of Upper Limb Functional of Hand Surgery of Chinese Medical Association, at the last follow-up visit, 5 digits were in excellent, 4 in good and 1 in fair.Conclusion:The comprehensive reconstruction of grades Ⅰ-Ⅱ digital defects with hallux osteo-onychocutaneous flap of great toe is an ideal surgical technique that can reconstruct the nail, finger print and sensation of a digit, with good postoperative function as well as an aesthetic and realistic appearance.

Renal cancer is a common and increasingly prevalent malignancy with a complex pathogenesis influenced by genetics,smoking,and obesity.Current treatment mainly involves surgery with adjunctive chemotherapy,radiation,and immunotherapy,but high rates of recurrence and metastasis indicate its limited effectiveness,emphasizing the need for better therapeutic targets.Growing evidence indicates that epigenetic modifications,particularly RNA modifications,play a critical role in renal cancer development and progression.This review highlights recent advances in renal cancer epigenetics,focusing on RNA modifications such as N6-methyladenosine(m6 A),N7-methylguanosine(m7G),5-methylcytosine(m5C),N1-methyladenosine(m1A),adenosine-to-inosine(A-to-I),N6,2'-O-dimethyladenosine(m6Am),and N4-acetylcytidine(ac4C),along with their regulatory factors.It also explores the diagnostic and therapeutic potential of targeting RNA modifications and associated proteins.

Objective To study the effects of porous prothesis with radial gradient and homogenized structures on stress transmission in the tibia by using finite element method.Methods Based on the reverse engineering technology,the tibial model was constructed,and the bionic trabecular bone structure prosthesis with gradient change of pore edge diameter and the homogeneous bionic trabecular bone structure prosthesis were designed.The Vicon dynamic capture platform was used to obtain the human gait and the axial force of the tibia-femoral joint during flexion,which was imported into ANSYS Workbench as a boundary condition for mechanical performance analysis.Results In the case of proximal defect,the von Mises stress of the bone for prosthesis with radial gradient structure was increased by 3.68 MPa,and that in the case of distal defect was increased by 7.34 MPa.Compared with the homogenized prosthesis,the von Mises stress of the proximal and distal defects was decreased by 171 MPa and 190.4 MPa,respectively.Conclusions The stress of the radial gradient structure prosthesis diffuses from the outside to the middle high porosity area along the prosthesis,which can effectively transfer the tibial plateau load,reduce stress concentration of the prosthesis,improve bone stress and prolong service life of the prosthesis.This study provides a theoretical reference for clinical prosthesis replacement.

N7-methylguanosine(m7G)modification occurs at the 5'cap of mRNA in eukaryotes,and is also found at specific sites on tRNA and rRNA,showing wide conservation across various biological organisms.Aberrant m7G modification is involved in the dysregulation of gene expression and serves as a biomarker for multiple cancers,with significant potential for applications in tumor diagnosis and therapy.This review summarizes the biological functions and regulatory mechanisms of m7G modification,and outlines its potential clinical applications.It also highlights the oncogenic roles of aberrant m7G modification and its association with prognosis,providing a detailed discussion of the role and molecular mechanisms of abnormal m7G modification in regulating drug resistance in various cancers.

Objective:To observe the clinical effect of comprehensive reconstruction of grades Ⅰ-Ⅱ thumb and finger defects with hallux osteo-onychocutaneous flaps of great toe.Methods:This is a retrospective study. From June 2020 to December 2023, comprehensive reconstruction surgery for Grade Ⅰ-Ⅱ digital defect were performed with hallux osteo-onychocutaneous flaps of great toe for 3 thumbs and 7 fingers in 9 patients in the Department of Hand and Microsurgery of Baoji Third Hospital. Causes of digital injury were: 4 of machine crush, 3 of electric saw cut, 1 of door crush, and 1 of electrical burn. There were 6 grade I digital defects (beyond the nail root) and 4 grade Ⅱ defects (last segment of digit). The defects of the digits were reconstructed by taking references of the shape and structure of the contralateral normal thumbs and fingers. Then the hallux osteo-onychocutaneous flaps of great toe were designed and harvested accordingly from the left and right great toes. Donor sites were covered by skin grafting or local dressing change. One patient was treated in emergency surgery, 6 in sub-emergency surgery and 2 in elective surgery. Integrated perioperative patient management was provided to all of the patients. Postoperative follow-ups were conducted through the visit of outpatient clinic, telephone calls or WeChat interviews. Flap survival, appearance and sensation recovery were evaluated according to the Evaluation Standard of Upper Limb Functional of Hand Surgery of Chinese Medical Association.Results:Vascular insufficiency of 1 digit occurred in surgery, and relieved by local treatment with lidocaine and warm saline. All 10 digits successfully survived, and all donor sites healed spontaneously. The postoperative follow-up period was 10 to 30 months, with an average of 18 months. One transferred nail was found in poor appearance (not flat), the rest of the reconstructed digits were good in appearance and function. The nail, finger print and fine sensation (TPD 5~8 mm), as well as digital flexion, extension, grasping and opposition of the reconstructed digits were all good. According to the Evaluation Standard of Upper Limb Functional of Hand Surgery of Chinese Medical Association, at the last follow-up visit, 5 digits were in excellent, 4 in good and 1 in fair.Conclusion:The comprehensive reconstruction of grades Ⅰ-Ⅱ digital defects with hallux osteo-onychocutaneous flap of great toe is an ideal surgical technique that can reconstruct the nail, finger print and sensation of a digit, with good postoperative function as well as an aesthetic and realistic appearance.

Compared with simple stress urinary incontinence (SUI), complicated female SUI is more diverse in etiology and more difficult to treat.Based on domestic and foreign literature and our diagnosis and treatment experience, this paper makes a detailed introduction to the definition, diagnosis, evaluation and clinical treatment of complicated female SUI, so as to provide guidance and reference for the treatment of this disease.

Objective The amplitude of low-frequency fluctuation(ALFF)resting state functional magnetic resonance imaging(rs-fMRI)was used to investigate the signals image in the brain functional areas of overactive bladder(OAB)patients.Methods OAB patients treated in 3 participating hospitals during Mar.2021 and Mar.2023 were selected as the OAB group(n=14).Healthy subjects matching the gender,age and years of education of the patients in the OAB group were collected as the control group(NC group,n=14).Changes in the over active bladder symptom score(OABSS),quality of life scale(QoL),self-rating depression scale(SDS),self-rating anxiety scale(SAS)were analyzed.All subjects underwent rs-fMRI to collect blood oxygen level dependent magnetic resonance signals,which were then processed with ALFF.Two-sample t-test was conducted on the results to obtain the different brain regions.Results The OABSS[(8.07±0.37)vs.(1.21±0.18)],QoL[(4.85±0.21)vs.(0.64±0.13)],SAS[(60.14±1.40)vs.(37.64±1.57)]and SDS[(52.50±1.29)vs.(36.14±0.34)]scores of the OAB group were higher than those of the NC group,with significant differences(P＜0.05).The brain regions with significant differences in ALFF were located in the left supplementary motor area,left medial superior frontal gyrus and right anterior central gyrus(P＜0.000 1).Conclusion The abnormal spontaneous activity and coordination ability of the brain in resting state may lead to OAB symptoms,which are displayed in the abnormal functions of the left supplementary motor area,left medial superior frontal gyrus and right anterior central gyrus.