BACKGROUND:Nowadays,there are increasing reports on the digitization and visualization system of acupuncture points for adults in traditional Chinese medicine,and the digitization and visualization system of acupuncture points for children in traditional Chinese medicine and the simulation system of acupuncture manipulation for Mongolian medicine training have been reported.However,there are no reports on relevant systems for children in Mongolian medicine. OBJECTIVE:To develop a simulation system of acupuncture points for children in Mongolian medicine,in the hope that it can be used for clinical teaching,manipulation practice and research on acupuncture safety. METHODS:Based on the tomographic anatomical dataset of preschool boys,a three-dimensional(3D)digital virtual anatomical model of children with multiple internal organs and tissues was constructed by using PhotoShop.2021 and Digihuman Reconstruction System software.The relevant annotation information database of 27 acupoints such as Dinghui acupoint of Mongolian medicine was compiled by the Unity database language.The Mongolian gold needle and silver needle were selected to record the acupuncture point teaching video on the 3D printed head and neck resin model of children.In Unity3D software,children's anatomical model,acupoint annotation information database and acupuncture operation video were integrated and coded,and a 3D digital children's Mongolian acupuncture acupoint visualization system integrating simulation acupuncture training,clinical teaching and acupuncture safety research was successfully created. RESULTS AND CONCLUSION:This study was based on real children's specimens.In order to reduce the error of two-dimensional segmentation,the manual layer-by-layer segmentation section image method was used to ensure the accuracy of the 3D model to the greatest extent.The Digihuman Reconstruction System was used to extract and save the individual segmentation data while maximizing the accuracy of the 3D model.PhotoShop.2021 software was used to complete the 3D reconstruction of the outer skin of the head and neck of children and the internal bony structure,cervical spinal cord,blood vessels and nerves,muscles and ligaments.After 3D reconstruction,the basic morphology of each independent structure and the integrity of the overall contour were verified in MeshLab software and the final fine adjustment and anatomical position confirmation were conducted using 3-matic research 13.0 software.The real anatomical morphology of the head and neck of preschool children was successfully simulated and restored.Unity3D software was used to integrate the 3D model of children,acupuncture operation video and acupoint annotation database,and the 3D digital Mongolian acupuncture acupoint visualization system for children was successfully constructed.Based on the real continuous fault ultra-thin dataset of preschool boys in China,China's first 3D digitization and visualization system of acupuncture points in the head and neck of children in Mongolian medicine was developed.Compared with the previous acupuncture soft works,this system is more suitable for the anatomical morphological development characteristics of Asian children,and has a high value of application in the fields of research on the safety of acupuncture in Mongolian medicine,clinical teaching and acupuncture simulation training.

Purpose To explore the changes in biventricular volume and mass in chronic kidney disease(CKD)patients with preserved ejection fraction using cardiac magnetic resonance(CMR),and evaluate cardiac function using tissue-tracking strain analysis.Materials and Methods The retrospective analysis of 40 CKD patients without symptoms of cardiovascular disease,diabetes and the estimated glomerular filtration rate<60 ml/(min·1.73 m2)who were treated at the First Affiliated Hospital of Anhui Medical University from October 2020 to June 2023 and 25 age-and gender-matched healthy volunteers.All participants underwent 1.5T CMR scans to calculate left and right ventricular function,myocardial strain and native T1 and T2 values,and differences in various imaging parameters between the two groups were compared.Results The native T1 value[(1 109.6±35.9)ms]and T2 value[(58.1±2.9)ms]of CKD patients were significantly higher than those in control group[(1 046.3±15.9)ms,(53.3±2.3)ms](t=8.296,6.916,both P<0.001).The left ventricular end-diastolic volume index,left ventricular end-systolic volume index,left ventricular mass index,right ventricular end-diastolic volume index,right ventricular end-systolic volume index and right ventricular mass index of CKD patients were significantly increased compared with the control group(t=3.233,3.350,5.751,7.746,5.937,2.363,all P<0.05),while the left and right ventricular strain parameters,left ventricular global longitudinal strain,left ventricular global circumferential strain,left ventricular global radial strain,right ventricular global longitudinal strain,right ventricular global circumferential strain and right ventricular global radial strain were significantly decreased(t=9.506,9.072,-10.603,10.496,11.574,-4.018,all P<0.001),and the estimated glomerular filtration rate exhibited significant correlations with left ventricular global longitudinal strain(r=-0.636),left ventricular global radial strain(r=0.688),right ventricular global longitudinal strain(r=-0.513),right ventricular global circumferential strain(r=-0.827)and right ventricular global radial strain(r=0.514)(all P<0.001).Conclusion CMR can quantitatively assess myocardial fibrosis and edema in patients with CKD,and tissue tracking strain analysis can detect myocardial motion abnormalities before changes in ventricular ejection fraction,offering value in the early detection of cardiac involvement in CKD patients..

Objective : To investigation of the interaction between interstitial cells of Cajal (ICCs) and connexin 43 ( Cx43) in bladder contraction and its significance． Methods : Eighty male guinea pigs were randomly divided into blank control group，Glivec group，Gap27 group and Glivec + Gap27 group．Four groups of guinea pigs were per- fused with saline，Glivec，Gap 27，and Glivec + Gap 27 every morning for 2 months．Success of urodynamic testing model after 2 months．Bladder tissue was collected for an in vitro muscle strip test to detect muscle contraction in each group．Correlation between c-Kit and Cx43 was detected by immunofluorescence．The interaction between c- Kit and Cx43 in the bladder was further validated by qRT-PCR and Western blot．Ultrastructural changes in the muscle layer of the bladder were observed by electron microscopy. Results : Urodynamics revealed increased blad- der compliance in the experimental group compared to the blank control group (P＜0. 05) ; bladder compliance increased in the Glivec + Gap27 group compared to the Glivec and Gap27 groups (P＜0. 01) ．In vitro muscle strip experiments revealed that the frequency and tone of bladder muscle strip contractions were lower in the experimental group compared to the blank control group (P＜0. 05) ，and that muscle strip contractions were weaker in the ex- perimental group after administration of acetylcholine (ACH) compared to the control group(P＜0. 05) ．Immuno- fluorescence showed that c-Kit was co-expressed with Cx43 on ICCs cells．qRT-PCR and Western blot suggested that the protein expression level and gene expression level of Cx43 in bladder tissues were lower after inhibition of c-Kit than in the blank control (P＜0. 05) ; after inhibition of Cx43，the protein expression level and gene expres- sion level of c-Kit in bladder tissues the levels of c-Kit protein expression and gene expression in bladder tissues were lower than those in the blank control group (P＜0. 05) ．Electron microscopy revealed that the mitochondrial structure of bladder smooth muscle was disrupted after simultaneous inhibition of c-Kit and Cx43． Conclusion Cx43 is expressed on bladder ICCs and the two may be jointly involved in regulating bladder contractile function ; the joint reduction of Cx43 and c-Kit may have disrupted the mitochondria of bladder smooth muscle，affecting its function and consequently bladder contractile function.

The adjacent anatomy of the pelvis is complicated, with digestive, urinary, reproductive and other organs as well as important blood vessels and nerves. Therefore, accurate resection of pelvic tumors and precise reconstruction of defects after resection are extremely difficult. The development of medical 3D printing technology provides new ideas for precise resection and personalized reconstruction of pelvic tumors. The “triune” application of 3D printing personalized lesion model, osteotomy guide plate and reconstruction prosthesis in pelvic tumor limb salvage reconstruction treatment has achieved good clinical results. However, the current lack of normative guidance standards such as preparation and application of 3D printing personalized lesion model, osteotomy guide plate and reconstruction prosthesis restricts its promotion and application. The formulation of this consensus provides normative guidance for 3D printing personalized pelvic tumor limb salvage reconstruction treatment.

Objective:To explore the advantages, disadvantages, and precautions of clinically applying four types of non-trunk vessels as recipient vessels in the free flap transplantation for repairing peri-knee wounds.Methods:A retrospective analysis of the clinical data was conducted of 23 patients (12 males and 11 females) with peri-knee skin and soft tissue defects who underwent free anterolateral thigh flaps or free latissimus dorsi flaps. The patients were admitted to the Department of Traumatic Orthopedics, Wuxi 9th People’s Hospital, from January 2015 to December 2019. The patients were aged 20-72 years (mean 41.9). The wound size with vital tissue exposure was 18.0 cm×5.0 cm-42.0 cm×9.0 cm. Preoperative color Doppler and computerized tomography angiography techniques were used to assist in positioning and to measure the recipient vessels (including the descending genicular vessel, descending branch of the lateral femoral circumflex vessel, the medial sural vessel, and the medial inferior genicular vessel) and blood vessels in the donor area (including descending branches of lateral femoral circumflex vessels and thoracic dorsal vessels). The caliber was measured and verified by a soft ruler with a scale intraoperative. The measured values of the caliber were recorded in the preoperative and intraoperative. The color and texture of the two flaps and the healing of the donor sites were observed postoperatively. The conformance ratio of preoperative and intraoperative measured values of vessels in the donor and recipient areas (except for the only case of the medial inferior genicular vessel) was compared. SPSS 26.0 software was used for data analysis. The measurement data were showed as Mean±SD, and the comparison results were analyzed by paired t-test. P<0.05 was considered statistically significant. Results:A total of 23 patients with skin and soft tissue defects around the knee were enrolled. The size of the tissue flap was 18.0 cm×5.0 cm-46.0 cm×9.0 cm. Twelve of 14 anterolateral thigh flaps anastomosed to the descending genicular vessel survived. The remaining two cases had a length of 6 cm and 4 cm necrosis at the distal flap, which was finally given skin-grafting and healed. One of the 12 survived flaps failed in limb salvage in Phase Ⅰ and was thus given flap reconstruction in Phase Ⅱ. Another case was given amputation due to serious infection of limbs, with incomplete ends of the survived flaps rotated and covered. In four cases anastomosed to the descending branch of the lateral circumflex femoral vessel, three anterolateral thigh flaps survived completely, and one distal latissimus dorsi flap had a length of 12 cm necrosis which was given debridement and Ilizarov bone transport for heal. Two anterolateral thigh flaps and two latissimus dorsi flaps anastomosed to the medial sural vessel survived completely, of which one anterolateral thigh flap had vein crisis which was later solved. The anterolateral thigh flap of 1 case anastomosed to medial inferior genicular vessels completely survived. The postoperative follow-up lasted 3-30 months with an average of 13.6 months. All the flaps have good color and textures with good incision heal at the donor site in Phase Ⅰ. There was no statistically significant difference in the preoperative and intraoperative measurement values of blood vessel caliber in the donor and recipient areas ( P>0.05). Conclusions:Four non-trunk peri-knee blood vessels can serve as recipient vessels of the free tissue flaps, and proper selection of the vessels can effectively improve the survival rate of the tissue flaps. The descending genicular vessel can serve as the recipient vessel for a priority, as with a superficial position, fixed dissection, simple positioning, and convenient intraoperative dissection.

Objective:To explore the advantages, disadvantages, and precautions of clinically applying four types of non-trunk vessels as recipient vessels in the free flap transplantation for repairing peri-knee wounds.Methods:A retrospective analysis of the clinical data was conducted of 23 patients (12 males and 11 females) with peri-knee skin and soft tissue defects who underwent free anterolateral thigh flaps or free latissimus dorsi flaps. The patients were admitted to the Department of Traumatic Orthopedics, Wuxi 9th People’s Hospital, from January 2015 to December 2019. The patients were aged 20-72 years (mean 41.9). The wound size with vital tissue exposure was 18.0 cm×5.0 cm-42.0 cm×9.0 cm. Preoperative color Doppler and computerized tomography angiography techniques were used to assist in positioning and to measure the recipient vessels (including the descending genicular vessel, descending branch of the lateral femoral circumflex vessel, the medial sural vessel, and the medial inferior genicular vessel) and blood vessels in the donor area (including descending branches of lateral femoral circumflex vessels and thoracic dorsal vessels). The caliber was measured and verified by a soft ruler with a scale intraoperative. The measured values of the caliber were recorded in the preoperative and intraoperative. The color and texture of the two flaps and the healing of the donor sites were observed postoperatively. The conformance ratio of preoperative and intraoperative measured values of vessels in the donor and recipient areas (except for the only case of the medial inferior genicular vessel) was compared. SPSS 26.0 software was used for data analysis. The measurement data were showed as Mean±SD, and the comparison results were analyzed by paired t-test. P<0.05 was considered statistically significant. Results:A total of 23 patients with skin and soft tissue defects around the knee were enrolled. The size of the tissue flap was 18.0 cm×5.0 cm-46.0 cm×9.0 cm. Twelve of 14 anterolateral thigh flaps anastomosed to the descending genicular vessel survived. The remaining two cases had a length of 6 cm and 4 cm necrosis at the distal flap, which was finally given skin-grafting and healed. One of the 12 survived flaps failed in limb salvage in Phase Ⅰ and was thus given flap reconstruction in Phase Ⅱ. Another case was given amputation due to serious infection of limbs, with incomplete ends of the survived flaps rotated and covered. In four cases anastomosed to the descending branch of the lateral circumflex femoral vessel, three anterolateral thigh flaps survived completely, and one distal latissimus dorsi flap had a length of 12 cm necrosis which was given debridement and Ilizarov bone transport for heal. Two anterolateral thigh flaps and two latissimus dorsi flaps anastomosed to the medial sural vessel survived completely, of which one anterolateral thigh flap had vein crisis which was later solved. The anterolateral thigh flap of 1 case anastomosed to medial inferior genicular vessels completely survived. The postoperative follow-up lasted 3-30 months with an average of 13.6 months. All the flaps have good color and textures with good incision heal at the donor site in Phase Ⅰ. There was no statistically significant difference in the preoperative and intraoperative measurement values of blood vessel caliber in the donor and recipient areas ( P>0.05). Conclusions:Four non-trunk peri-knee blood vessels can serve as recipient vessels of the free tissue flaps, and proper selection of the vessels can effectively improve the survival rate of the tissue flaps. The descending genicular vessel can serve as the recipient vessel for a priority, as with a superficial position, fixed dissection, simple positioning, and convenient intraoperative dissection.

The clinical demands for tissue and organ regeneration ars increasing. three-dimensional bioprinting can not only solve the problem of tissue replacement and regeneration, but also meet the personalized needs of patients by constructing highly bionic tissues and functional substitutes of active tissues and organs. So, it has broad application potential in orthopedics. The authors mainly introduce the main progress of 3D bioprinting in basic research of orthopedics such as bone tissue printing, cartilage tissue printing, biphasic printing of bone and cartilage as well as in clinical application of traumatic orthopedics, which may provide reference for clinical application of 3D bioprinting.

The parahippocampal gyrus-orbitofrontal cortex (PHG-OFC) circuit in humans is homologous to the postrhinal cortex (POR)-ventral lateral orbitofrontal cortex (vlOFC) circuit in rodents. Both are associated with visuospatial malfunctions in Alzheimer's disease (AD). However, the underlying mechanisms remain to be elucidated. In this study, we explored the relationship between an impaired POR-vlOFC circuit and visuospatial memory deficits through retrograde tracing and in vivo local field potential recordings in 5XFAD mice, and investigated alterations of the PHG-OFC circuit by multi-domain magnetic resonance imaging (MRI) in patients on the AD spectrum. We demonstrated that an impaired glutamatergic POR-vlOFC circuit resulted in deficient visuospatial memory in 5XFAD mice. Moreover, MRI measurements of the PHG-OFC circuit had an accuracy of 77.33% for the classification of amnestic mild cognitive impairment converters versus non-converters. Thus, the PHG-OFC circuit explains the neuroanatomical basis of visuospatial memory deficits in AD, thereby providing a potential predictor for AD progression and a promising interventional approach for AD.

Bone defect repairing and reconstruction has been a hot research topic in orthopedics for a long time. Tissue engineering and stem cell technology have made a series of important achievements in promoting bone regeneration to treat bone defect. In recent years, 3D bio-printing, which combining with 3D printing, tissue engineering and stem cell technology, has significant advantages in optimizing the geometry, mechanical properties and biological functions of repairing tissue for bone defect by accurately controlling the shape and internal structure of scaffolds, and printing biomaterials, stem cells and (or) cells into three-dimensional biological functional structures. A series of important progress has been achieved. The common printing methods for bio-printing related to orthopedic include: Inkjet 3D bioprinting; microextrusion 3D bioprinting; laser-assisted 3D bioprinting; stereolithography; microvalve based 3D bioprinting. Various printing methods and principles are not the same, and each has advantages and disadvantages, and the applicable "bio ink" is also different. The key technologies of orthopedic bio-3D printing include: the methods of image data acquisition and 3D structure design; development and application of composite bio-scaffold materials suitable for 3D printing, tissue engineering and bone-enhancing effect; stem cell selection for ensuring graft biological performance and induced pluripotent stem cell technology; in vitro bioreactor technology for improving the maturity and biocharacterization of bioprinted tissues. The literature published in the field of biological 3D printing research has continued to grow at a high rate since 2008. Using the bibliometric analysis software VOSviewer to create a co-word matrix for high-frequency keywords and to draw a keyword co-occurrence network map analysis, biological 3D printing research hotspots are the use of tissue engineering methods to 3D printed tissue scaffolds, while studying cell survival and drug effects. The instruments and methods of bio-3D printing are also one of the research hotspots.

Objective To evaluate effects of 7 common hemoglobin variants on HbA 1c measurements using 4 ion exchange high performance liquid chromatography methods .Methods Ninety five samples with hemoglobin variants were collected from January 2017 to February 2018 during HbA1c measurements in laboratary medicine of peking university shenzhen hospital .Samples with 7 common hemoglobin variants were measured using Sebia Capillary 2 Flex Piercing, Bio-Rad D-10, Arkray HA8180V, Tosoh G8, and MQ6000 Plus, respectively.Effects of 7 common hemoglobin variants on HbA 1c measurements by the 4 methods were analyzed using Capillary 2 Flex Piercing as a comparative method .All statistical analyses were carried out using SPSS software version 19.0 .Mean bias were calculated for samples with hemoglobin variants , box plot was established to display bias distribution .Results Hb New York showed no interference on the 4 HPLC mechods although Hb New York could not be detected .D-10 could detect 6 Hb variants, and showed clinically significant interference for Hb J-Bangkok, Hb G-Coushatta, and Hb G-Taipei.HA-8180V fast mode yielded no HbA1c values for Hb J-Bangkok, Hb G-Coushatta, and Hb G-Taipei.Hb E, Hb Q-Thailand, and Hb G-Honolulu produced significant negative biases for HA-8180V.G8 standard mode could detect 1 Hb variant, and showed significant negative biases for six Hb variants .MQ6000 Plus could separate six Hb variants , only Hb G-Coushatta and Hb G-Taipei produced significant negative biases for the system . Conclusions Some common hemoglobin variants can interfere with HbA 1c determination by the most popular methods in South China , which may lead to erroneous HbA 1c values.