Publications by authors named "Ming-Hsien Hu"

Functional recovery following the surgical fixation of acetabular posterior wall fractures remains a challenge. This study compares outcomes of posterior wall fracture reconstruction using an anatomical posterior acetabular plate (APAP) versus conventional reconstruction plates. Forty patients with acetabular fractures involving the posterior wall or column underwent surgery, with 20 treated using APAPs (APAP group) and 20 with conventional pelvic reconstruction plates (control group).

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Bone defects are commonly addressed with bone graft substitutes; however, surgical procedures, particularly for open and complex fractures, may pose a risk of infection. As such, a course of antibiotics combined with a drug carrier is often administered to mitigate potential exacerbations. This study involved the preparation and modification of emulsified (Em) crosslinking-gelatin (gel) microspheres (m-Em) to reduce their toxicity.

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Introduction: A spiral clavicle plate has been accepted for its superior multidirectional compatibility in the treatment of midshaft clavicle fractures from a biomechanical perspective. However, the influence of the sextant angle (spiral level) definition on biomechanical performance has not been clarified. A conceptual finite element analysis was conducted to identify the advantages and drawbacks of spiral clavicle plates with various sextant angle definitions.

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Article Synopsis
  • This study compared the surgical and clinical outcomes of two procedures—minimally invasive transforaminal lumbar interbody fusion (MIS TLIF) and midline lumbar interbody fusion (MIDLIF)—in patients with spondylolisthesis.
  • Results showed that while both procedures had similar fusion rates and recovery times, MIDLIF was associated with a shorter operation time and lower pain scores post-surgery compared to MIS TLIF.
  • Additionally, the MIS TLIF group experienced a higher rate of facet joint violations, while other complications were similar across both groups.
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  • This study explores the use of human peripheral blood-derived mononuclear cells (PBMCs) for pain relief and improving life quality in IVDD patients, showing promising results in preclinical tests involving rats where PBMCs demonstrated anti-inflammatory and tissue repair effects.
  • A clinical trial with 36 patients indicated that those receiving intradiscal injections of PBMCs experienced significant reductions in LBP and disability compared to those receiving only conservative care, suggesting PBMCs could be a viable treatment option for IVDD.
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We report the feasibility of using gelatin hydrogel networks as the host for the in situ, environmentally friendly formation of well-dispersed zinc oxide nanoparticles (ZnONPs) and the evaluation of the antibacterial activity of the as-prepared composite hydrogels. The resulting composite hydrogels displayed remarkable biocompatibility and antibacterial activity as compared to those in previous studies, primarily attributed to the uniform distribution of the ZnONPs with sizes smaller than 15 nm within the hydrogel network. In addition, the composite hydrogels exhibited better thermal stability and mechanical properties as well as lower swelling ratios compared to the unloaded counterpart, which could be attributed to the non-covalent interactions between the in situ formed ZnONPs and polypeptide chains.

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Background: Previous studies have reported that vitamin D supplement could improve fracture healing, but evidence regarding the role of vitamin D supplements in spinal fusion was limited. Thus, this study aimed to evaluate the effectiveness of oral vitamin D supplements on fusion outcomes in patients undergoing lumbar spinal fusion.

Methods: This randomized, double-blind, parallel-designed, active-control trial included the patients who planned for elective lumbar spinal fusion.

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  • Calcium phosphate cement (CPC) is biocompatible and has good plasticity, while mesoporous bioactive glass (MBG) enhances bone healing with its Si release and ability to carry drugs.
  • The study tested different mixtures of a sol-gel prepared MBG micro-powder with antibiotic gentamicin in CPC to evaluate their effectiveness as a bone cement, with varying weight ratios impacting cement properties like injectability, compressive strength, and working time.
  • The optimal mix was found to be 10 wt.% of mMBG with 2 mg/mL gentamicin, balancing good antibacterial properties and suitable mechanical strength for potential clinical use, despite some cytotoxicity associated with the gentamicin-loaded
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Poly(glycerol sebacate) (PGS), a soft, tough elastomer with excellent biocompatibility, has been exploited successfully in many tissue engineering applications. Although tunable to some extent, the rapid in vivo degradation kinetics of PGS is not compatible with the healing rate of some tissues. The incorporation of L-glutamic acid into a PGS network with an aim to retard the degradation rate of PGS through the formation of peptide bonds was conducted in this study.

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Background: We report our preliminary results using a single approach, the mirror Judet approach, for patients with both ipsilateral scapula and multiple rib fractures.

Methods: Five consecutive patients [median age: 56 years (range: 44 ~ 60)] with ipsilateral scapula and multiple rib fractures that met the surgical indications were retrospectively reviewed. A single approach, the mirror Judet approach, was used for surgical stabilization of the scapula and targeted rib fractures.

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Hyaluronic acid (HA) is a key component of the intervertebral disc (IVD) that is widely investigated as an IVD biomaterial. One persisting challenge is introducing materials capable of supporting cell encapsulation and function, yet with sufficient mechanical stability. In this study, a hybrid interpenetrating polymer network (IPN) was produced as a non-covalent hydrogel, based on a covalently cross-linked HA (HA-BDDE) and HA-poly(N-isopropylacrylamide) (HA-pNIPAM).

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Background: Previous studies have seldom focused on injury patterns, especially musculoskeletal injuries, caused by building collapse during earthquakes. The aim of this study was to investigate the musculoskeletal injury profiles and management of patients rescued from collapsed buildings in the 2016 Taiwan earthquake.

Methods: We conducted a retrospective study using the electronic medical record (EMR) system.

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We report an efficient growth factor delivering system based on polypeptide/heparin composite hydrogels for wound healing application. Linear and star-shaped poly(l-lysine) (l-PLL and s-PLL) were chosen due to not only their cationic characteristics, facilitating the efficient complexation of negatively charged heparin, but also the ease to tune the physical and mechanical properties of as-prepared hydrogels simply by varying polypeptide topology and chain length. The results showed that polymer topology can be an additional parameter to tune hydrogel properties.

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Purpose: This study aimed to demonstrate that the augmented reality computer-assisted spine surgery (ARCASS) system is clinically feasible for percutaneous vertebroplasty (PVP).

Methods: This prospective case-control study included the patients undergoing PVP under the assistance of the ARCASS system between July 1, 2013, and October 31, 2014. The control group was the age- and gender-matched patients who underwent standard PVP and met the same eligible criteria as the case group.

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Poly(glycerol sebacate) (PGS) is a biocompatible, biodegradable elastomer that has been shown promise as a scaffolding material for tissue engineering; it is still challenging, however, to produce anisotropic scaffolds by using a thermoset polymer, such as PGS. Previously, we have used aligned sacrificial poly(vinyl alcohol) (PVA) fibers to help produce an anisotropic PGS membrane; a composite membrane, formed by embedding aligned PVA fibers in PGS prepolymer, was subjected to curing and subsequent PVA removal, resulting in aligned grooves and cylindrical pores on the surface of and within the membrane, respectively. PVA, however, appeared to react with PGS during its curing, altering the mechanical characteristics of PGS.

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The use of fibrous scaffolds for tissue repair or regeneration is advantageous for its microstructure similar to that of the native ECM. Aligned fibrous scaffold, in particular, can be used to manipulate cell alignment and hence the microstructure of the resultant tissue. In our previous study, nanofibers consisting of solely poly(glycerol sebacate) (PGS) have been successfully fabricated using core-shell coaxial electrospinning followed by curing and subsequent shell removal.

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In this study, we investigated the effect of supplementing a non-dispersive dicalcium phosphate-rich calcium phosphate bone cement (DCP-rich CPC) with type I collagen on in vitro cellular activities and its performance as a bone graft material. Varying amounts of type I collagen were added during the preparation of the DCP-rich CPC. In vitro cell adhesion, morphology, viability, and alkaline phosphatase (ALP) activity were evaluated using progenitor bone cells.

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Although poly(glycerol sebacate) (PGS) has enjoyed great success in soft tissue engineering, it remains challenging to fabricate PGS fibers. In this study, coaxial electrospinning, in which polylactide (PLA) was used to confine and draw PGS prepolymer, was used to fabricate PGS fibrous membranes. Specifically, effects of adding poly(ethylene oxide) (PEO), which was removed prior to curing, in the shell were investigated.

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Article Synopsis
  • - This study assessed the effectiveness of three different calcium phosphate bone graft substitutes in promoting spinal fusion in rats, using a model where fusion was performed at the lumbar vertebrae (L4-L5)! - The two new calcium phosphate cement types (nd-CPC and DCP-rich CPC) were compared against a commercial graft (c-CPG); results showed that while all groups generally led to stable fusions, the DCP-rich CPC exhibited superior bone regeneration and integration! - Notably, the DCP-rich CPC demonstrated significant bone volume increases and effective transformation into a beneficial form of apatite, suggesting it has the greatest potential for spinal fusion applications among the tested materials!
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This paper presents an advanced augmented reality system for spinal surgery assistance, and develops entry-point guidance prior to vertebroplasty spinal surgery. Based on image-based marker detection and tracking, the proposed camera-projector system superimposes pre-operative 3-D images onto patients. The patients' preoperative 3-D image model is registered by projecting it onto the patient such that the synthetic 3-D model merges with the real patient image, enabling the surgeon to see through the patients' anatomy.

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Many studies have proven that the polymethylmethacrylate (PMMA) augmentation of the pedicle screw can significantly increase stiffness and strength of spinal fixation. Some major complications have also been reported. However, there are no reports discussing cement distribution and its morphology in the osteoporotic vertebral body, which is critical in the analysis of the biomechanical strength of the pedicle screw and the risk of cement leakage after pedicle screw augmentation.

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