OBJECTIVE: To analyze the current status and temporal trends of the disease burden of spinal fractures in China from 1990 to 2021 based on data from the Global Burden of Disease Study 2021 (GBD 2021), aiming to provide evidence for developing prevention and treatment strategies. METHODS: Epidemiological data on spinal fractures in China, the United States of America (USA), and globally were extracted from the GBD 2021 database. Joinpoint regression models were applied to analyze temporal trends. Age-standardized incidence, prevalence, and disability-adjusted life years (DALYs) rates were calculated, with comparisons of gender- and age-group disparities. RESULTS: In 2021, the number of incident cases, prevalent cases, and DALYs of spinal fractures in China increased by 52.28%, 113.68%, and 106.98%, respectively, compared to 1990. The age-standardized incidence, prevalence, and DALYs rates rose by 11.80%, 16.11%, and 14.79%, respectively. The disease burden escalated significantly with age, peaking in individuals aged ≥75 years. Males exhibited higher age-standardized incidence and DALYs rates than females. Comparative analysis revealed that the age-standardized DALYs rate in China (4.19/100 000) was lower than that in globally (6.62/100 000) and USA (15.92/100 000). However, China showed an upward trend [annual average percentage change (AAPC)=0.19%], contrasting with a declining trend in the USA (AAPC=-0.08%). CONCLUSION The escalating disease burden of spinal fractures in China is closely linked to population aging, gender disparities, and insufficient targeted prevention policies. Future strategies should integrate age- and gender-specific interventions, including strengthened osteoporosis prevention, trauma risk control, and big data-driven precision measures, to mitigate this burden.
Humans ; China/epidemiology* ; Global Burden of Disease/trends* ; Male ; Female ; Spinal Fractures/epidemiology* ; Middle Aged ; Aged ; Disability-Adjusted Life Years ; Prevalence ; Incidence ; Adult ; Young Adult ; Adolescent ; Aged, 80 and over ; United States/epidemiology* ; Cost of Illness ; Quality-Adjusted Life Years ; Child

An essential treatment for atlantoaxial dislocation is posterior atlantoaxial fusion. The current intra-articular fusion of the atlantoaxial lateral mass joint demonstrates a higher bone fusion rate, requires a smaller amount of bone graft, and has a lower incidence of complications. Although it has been employed in clinical practice, the atlantoaxial lateral mass intra-articular fusion cage is not yet widely utilized. Atlantoaxial instability and reducible atlantoaxial dislocation can be managed with simple posterior reduction, fixation, and atlantoaxial lateral mass intra-articular fusion. For patients with irreducible atlantoaxial dislocation, such as those with severe basilar invagination or obstructive anterior bone structures, transoral release is necessary, and anterior fusion cage placement is also feasible. Both posterior and anterior atlantoaxial lateral mass intra-articular fusion have seen significant improvements in surgical techniques, bone graft materials, and fusion cages. Among them, the procedure is evolving from the classic open approach to a more minimally invasive one. Bone graft materials include massive iliac bone, granular cancellous bone, fibula, autologous bone harvested from the C 1 posterior arch and C 2 lamina, and allogeneic bone, reflecting an increasingly diverse selection. Fusion cages have evolved from simple spacers to titanium blocks and further to cages that are anatomically adapted to the atlantoaxial joint, offering high bone fusion rates and various specifications of width and height. In anterior fusion cages, the circular design facilitates easy placement, while the wedge-shaped cage, when inserted transorally, better conforms to the physiological structure of the atlantoaxial lateral mass joint, resulting in improved surgical outcomes.The 3D-printed locking cage provides robust anterior support for fixation and fusion without the need for additional bone grafting. Anterior fusion cages are particularly suitable for patients with partial irreducible atlantoaxial dislocation requiring transoral release. Posterior cages, such as the cylindrical threaded cage, offer immediate stability. Customized cages exhibit more uniform stress distribution and can reduce cage subsidence. The posterior fusion cage has broad applicability and is suitable for patients with basilar invagination and atlantoaxial dislocation. The continuous advancements of fusion cages, bone graft materials, and surgical techniques will be from the aspects of stability, safety, and fusion rate to optimize the atlantoaxial lateral mass intra-articular fusion.

An essential treatment for atlantoaxial dislocation is posterior atlantoaxial fusion. The current intra-articular fusion of the atlantoaxial lateral mass joint demonstrates a higher bone fusion rate, requires a smaller amount of bone graft, and has a lower incidence of complications. Although it has been employed in clinical practice, the atlantoaxial lateral mass intra-articular fusion cage is not yet widely utilized. Atlantoaxial instability and reducible atlantoaxial dislocation can be managed with simple posterior reduction, fixation, and atlantoaxial lateral mass intra-articular fusion. For patients with irreducible atlantoaxial dislocation, such as those with severe basilar invagination or obstructive anterior bone structures, transoral release is necessary, and anterior fusion cage placement is also feasible. Both posterior and anterior atlantoaxial lateral mass intra-articular fusion have seen significant improvements in surgical techniques, bone graft materials, and fusion cages. Among them, the procedure is evolving from the classic open approach to a more minimally invasive one. Bone graft materials include massive iliac bone, granular cancellous bone, fibula, autologous bone harvested from the C 1 posterior arch and C 2 lamina, and allogeneic bone, reflecting an increasingly diverse selection. Fusion cages have evolved from simple spacers to titanium blocks and further to cages that are anatomically adapted to the atlantoaxial joint, offering high bone fusion rates and various specifications of width and height. In anterior fusion cages, the circular design facilitates easy placement, while the wedge-shaped cage, when inserted transorally, better conforms to the physiological structure of the atlantoaxial lateral mass joint, resulting in improved surgical outcomes.The 3D-printed locking cage provides robust anterior support for fixation and fusion without the need for additional bone grafting. Anterior fusion cages are particularly suitable for patients with partial irreducible atlantoaxial dislocation requiring transoral release. Posterior cages, such as the cylindrical threaded cage, offer immediate stability. Customized cages exhibit more uniform stress distribution and can reduce cage subsidence. The posterior fusion cage has broad applicability and is suitable for patients with basilar invagination and atlantoaxial dislocation. The continuous advancements of fusion cages, bone graft materials, and surgical techniques will be from the aspects of stability, safety, and fusion rate to optimize the atlantoaxial lateral mass intra-articular fusion.

Using chemoproteomic techniques, we first identified EIF2AK2, eEF1A1, PRDX3 and VPS4B as direct targets of berberine (BBR) for its synergistically anti-inflammatory effects. Of them, BBR has the strongest affinity with EIF2AK2 via two ionic bonds, and regulates several key inflammatory pathways through EIF2AK2, indicating the dominant role of EIF2AK2. Also, BBR could subtly inhibit the dimerization of EIF2AK2, rather than its enzyme activity, to selectively modulate its downstream pathways including JNK, NF-κB, AKT and NLRP3, with an advantage of good safety profile. In EIF2AK2 gene knockdown mice, the inhibitory IL-1β, IL-6, IL-18 and TNF-α secretion of BBR was obviously attenuated, confirming an EIF2AK2-dependent anti-inflammatory efficacy. The results highlight the BBR's network mechanism on anti-inflammatory effects in which EIF2AK2 is a key target, and inhibition of EIF2AK2 dimerization has a potential to be a therapeutic strategy against inflammation-related disorders.

A series of new monobactam sulfonates is continuously synthesized and evaluated for their antimicrobial efficacies against Gram-negative bacteria. Compound 33a (IMBZ18G) is highly effective in vitro and in vivo against clinically intractable multi-drug-resistant (MDR) Gram-negative strains, with a highly druglike nature. The checkerboard assay reveals its significant synergistic effect with β-lactamase inhibitor avibactam, and the MIC values against MDR enterobacteria were reduced up to 4-512 folds. X-ray co-crystal and chemoproteomic assays indicate that the anti-MDR bacteria effect of 33a results from the dual inhibition of the common PBP3 and some class A and C β-lactamases. Accordingly, preclinical studies of 33a alone and 33a‒avibactam combination as potential innovative candidates are actively going on, in the treatment of β-lactamase-producing MDR Gram-negative bacterial infections.

Objective To make classification and segment measurement for the cases with tibiofibular and ankle fractures in parachuting landing, and investigate main classification types of parachuting fractures and fracture segments of high risk.Methods A total of 56 fracture cases in parachuting landing were collected, and the tibiofibula and ankle fractures were classified according to AO-OTA or Lauge-Hansen classification standards respectively based on their digital X-ray images. The medium plane between talus and tibia joint planes in ankle joint was defined as the reference plane. The highest and lowest injury points of tibia and fibula were marked respectively, and the fracture segment was defined between the highest and lowest point for statistical analysis.Results For tibiofibular and ankle fracture cases in parachuting landing, fracture at both tibia and fibula accounted for 80.4%. The major classification of tibiofibula fracture was 42-D/5.2 (45.8%) and 42-D/5.1 (16.7%). The major classification for ankle fracture was pronation-external rotation (PER, 59.4%) and supination-external rotation (SER, 37.5%). When tibiofibular and ankle fracture cases in parachuting landing occurred, the fracture segment of the tibia was mainly from 57 to 143 mm above the reference plane and from 6 mm below the reference plane to 24 mm above the reference plane, while the fracture segment of the fibula was 4-45 mm and 74-83 mm above the reference plane. Injury risks of all above segments were higher than 50%.Conclusions For protection of lower limbs in parachuting landing, the fracture at both tibia and fibula should be highly noticed. The ankle motion of PER and SER should be especially restricted in parachuting ankle protection.

Objective To study effects of backpack gravity center position on kinetics and kinematics of lower-extremity joints in parachuting landing and evaluate the injuries. Methods Seven participants performed parachuting landing with backpack gravity center on three positions: low-back (position 1), upper-back (position 2) and abdomen (position 3). Results The peak vertical ground reaction force (GRF) with backpack on position 2 was significantly lower than that on position 1. The joint moment on sagittal plane of the hip with backpack on position 2 was significantly higher than that on position 1 and position 3. The joint energy absorption of the hip with backpack on position 2 was significantly higher than that on position 1. The angular displacement of the hip on sagittal plane with backpack on position 2 was significantly higher than that on position 1 and was significantly lower than that on position 3. The angular velocity of the hip on sagittal plane with backpack on position 2 was significantly lower than that on position 3. Conclusions Different positions of backpack gravity center could significantly influence kinetic and kinematic parameters of the hip. Backpack gravity center on upper-back position could decrease the lower-extremity injuries. The results can provide evidences for evaluating backpack gravity center and decreasing injuries in parachuting landing.

Objective To investigate the CT and MR imaging feature of osseous metastasis of hepatic alveolar hydatida.Methods CT and MR imaging features of osseous metastasis of hepatic alveolar hydatid were retrospectively analyzed in 14 cases confirmed by clinic and radiology. Results Of the 10 vertebral metastasises,three vertebral bodies were involved in 6 cases,two adjacent vertebral bodies were involved in 2 cases, single vertebral body was involved in 1 case, corresponding vertebral accessory was involved in 9 cases,irregular mass was formed in paravertebral muscles with ill-defined margins in 9 cases, adjacent ribs were involved in 6 cases. On CT scans, the lesions of vertebral body showed osteolytic and geographical bone destruction with bone sclerosis. The lesions of vertebral accessory showed swelling and osteolytic bone destruction, small cystic density and calcification of cystic wall and irregular calcification were found in 7 cases.The lesions of scapula,costal cartilage,ribs and pelvis showed swelling and osteolytic bone destruction,and bone sclerosis,and revealed cystic density with calcified speckles.On MR scans,the lesions of vertebral body and paravertebral muscles showed high and low mixed signal,with hypointensity on T1WI and T2WI, vertebral accessory and adjacent ribs were involved in 6 cases. Small cyst with T2 hyperintensity was found in 4 cases. The lesions of ribs and pelvis showed swelling and osteolytic bone destruction and adjacent medullary appeared hypointensity on T1WI and T2WI, cystic signal of T2 hyperintensity was identified. There were 5 cases of pulmonary metastasis and 6 cases of retroperitoneal metastasis. Conclusion Imaging features of osteolytic,geographical bone destruction with bone sclerosis, small cystic density or cystic signal and calcified speckles or arc calcification in mass are helpful for the diagnosis of osseous metastasis of hepatic alveolar hydatid.

Objective To study effects of different types of high-impact exercises on the increment of bone mineral density (BMD) and bone mineral content (BMC) . Methods Thirty-nine male volunteers, including 13 hoopsters, 13 paratroopers, and 13 common college students as the control, were recruited and divided into two subgroups (subgroup 1:20-22 years old; subgroup 2:23-25 years old). Their BMDs and BMCs on calcaneus, first through fifth metatarsus, hip, and lumbar spine (L1-4) were evaluated. Results The BMC of calcaneus, the first and second metatarsals, total lumbar spine, and total hip in the hoopster group was significantly higher than that in the control group and paratrooper group. The hoopster group obtained statistically higher BMD at the lumbar spine, hip, and femoral neck than the other two groups. However, the BMCs and BMDs of the paratrooper group and control group had no significant differences at almost all measured anatomical locations. Conclusions BMC and BMD are not always in positive correlation with vertical ground reaction forces during normal exercises. Compared with parachuting training, playing basketball as a kind of variable load exercise can effectively increase BMC and BMD, and is more beneficial for reducing the risk of osteoporotic fracture.

Objective To evaluate the anti-HBV effect of hypericin from the cellular level and to preliminarily explore its po-tential drug target point.Methods Liver cell line HepG2.2.15 cells secreting HBV particles were selected as the experimental ob-jects.Hypericin served as the HY group,lamivudine was taken as 3TC group and deionized water as the blank control group.The cells were grouped and administrated.The HBV-DNA copy level was measured at72 h after medication by Southern blot and fluo-rescent quantitative PCR;the inhibition rate of HBsAg and HBeAg was detected by using ELISA assay;the pgRNA expression level was tested by using Northern blot and fluorescent quantitative PCR;Western blot and fluorescent quantitative PCR were adopted to detect the expression of regulatory factors including HNF3β,HNF4α,PPARαand RXRα.Results Compared to the blank control group,both hypericin and lamivudine had significant inhibiting effect on HBV DNA and expression level of HBsAg and HBeAg in HepG2.2.15 cells (P <0.05).Hypericin could significantly decrease the pgRNA expression compared with the blank control group (P <0.05),while lamivudine had no obvious change (P <0.05).Moreover,hypericin exhibited significant effects on the expression of HNF3βand regulatory factor HNF4αcompared with the blank control group and 3TC group(P <0.05).Conclusion Hypericin represents a strong anti-HBV effect,moreover could increase the negative regulatory factor HNF3βn expression and decreases the positive factor HNF4αexpression,prompting that its drug target point could be pgRNA.