Utility of recorded guided imagery and relaxing music in reducing patient pain and anxiety, and surgeon anxiety, during cutaneous surgical procedures: A single-blinded randomized controlled trial.

BACKGROUND: Guided imagery and music can reportedly reduce pain and anxiety during surgery, but no comparative study has been performed for cutaneous surgery to our knowledge. OBJECTIVES: We sought to determine whether short-contact recorded guided imagery or relaxing music could reduce patient pain and anxiety, and surgeon anxiety, during cutaneous surgical procedures. METHODS: Subjects were adults undergoing excisional surgery for basal and squamous cell carcinoma. Randomization was to guided imagery (n = 50), relaxing music (n = 54), or control group (n = 51). Primary outcomes were pain and anxiety measured using visual analog scale and 6-item short-form of the State-Trait Anxiety Inventory, respectively. Secondary outcomes were anxiety of surgeons measured by the 6-item short-form of the State-Trait Anxiety Inventory and physical stress of patients conveyed by vital signs, respectively. RESULTS: There were no significant differences in subjects' pain, anxiety, blood pressure, and pulse rate across groups. In the recorded guided imagery and the relaxing music group, surgeon anxiety was significantly lower than in the control group. LIMITATIONS: Patients could not be blinded. CONCLUSION: Short-contact recorded guided imagery and relaxing music appear not to reduce patient pain and anxiety during excisional procedures under local anesthetic. However, surgeon anxiety may be reduced when patients are listening to such recordings.

Medico-Legal Topics in Emergency Cardiology.

The workup and diagnosis of cardiovascular emergencies represent the present and future risk to emergency physicians. Eliciting and documenting key details of a cardiovascular complaint, as well as following established standards for accurate and timely diagnosis of emergencies, is central to the medico-legal aspects of cardiovascular emergencies. Key elements of documentation include history, physical exam, diagnostic workup, and medical decision making. Key elements of medical malpractice include the existence of a legal duty, breach of the legal duty, causation, and presence of damages. All 4 legal elements must be present for medical malpractice to be proven in a court of law.

Gel scaffolds of BMP-2-binding peptide amphiphile nanofibers for spinal arthrodesis.

Peptide amphiphile (PA) nanofibers formed by self-assembly can be customized for specific applications in regenerative medicine through the use of molecules that display bioactive signals on their surfaces. Here, the use of PA nanofibers with binding affinity for the bone promoting growth factor BMP-2 to create a gel scaffold for osteogenesis is reported. With the objective of reducing the amount of BMP-2 used clinically for successful arthrodesis in the spine, amounts of growth factor incorporated in the scaffolds that are 10 to 100 times lower than that those used clinically in collagen scaffolds are used. The efficacy of the bioactive PA system to promote BMP-2-induced osteogenesis in vivo is investigated in a rat posterolateral lumbar intertransverse spinal fusion model. PA nanofiber gels displaying BMP-2-binding segments exhibit superior spinal fusion rates relative to controls, effectively decreasing the required therapeutic dose of BMP-2 by 10-fold. Interestingly, a 42% fusion rate is observed for gels containing the bioactive nanofibers without the use of exogenous BMP-2, suggesting the ability of the nanofiber to recruit endogenous growth factor. Results obtained here demonstrate that bioactive biomaterials with capacity to bind specific growth factors by design are great targets for regenerative medicine.

Characterizing the host response to rhBMP-2 in a rat spinal arthrodesis model.

STUDY DESIGN: Prospective, randomized, controlled preclinical trial. OBJECTIVE: This study seeks to characterize the localized and systemic host response to recombinant human bone morphogenetic protein-2 (rhBMP-2) in a well established rodent spine arthrodesis model utilizing cytokine analysis and magnetic resonance imaging (MRI). SUMMARY OF BACKGROUND DATA: Although high fusion rates are achieved with rhBMP-2 in the spine, several complications have also been reported, including a localized response leading to radiculitis and seroma formation. The mechanism in which this occurs clinically is yet unknown. METHODS: One hundred female Fischer rats underwent a posterolateral intertransverse lumbar spinal fusion, with paraspinal muscle tissue resection, using iliac crest autograft, type I absorbable collagen sponge (ACS), 10- or 100-µg rhBMP-2/ACS. The animals underwent magnetic resonance imaging evaluation, serum cytokine analysis, manual palpation, and gross tissue inspection at 2, 4, 7, 10, and 21 days, postoperatively. RESULTS: Qualitative evaluation of MR images demonstrated a transient fluid collection at the surgery site in the rhBMP-2 animals as early as 4 and 7 days that was greater than the autograft or ACS groups. Quantitative analysis on T2-weighted axial images demonstrated greater signal intensity in the rhBMP-2 animals compared with the ACS and autograft groups in a time-dependent fashion. Higher concentrations of several cytokines were also detected at 2, 4, and 7 days, including interleukin 1ß, interleukin 18, tumor necrosis factor α, macrophage inflammatory protein 1α, and monocyte chemotactic protein 1 in animals treated with rhBMP-2/ACS relative to ACS alone. CONCLUSION: Our data suggest that the in vivo host response to rhBMP-2 in an animal model may be associated with circulating proinflammatory and osteoclastic cytokines.

Nanocomposite therapy as a more efficacious and less inflammatory alternative to bone morphogenetic protein-2 in a rodent arthrodesis model.

The use of recombinant human bone morphogenetic protein-2 (rhBMP-2) in spine fusion has led to concerns regarding a potential accompanying inflammatory response. This study evaluates a combination therapy (TrioMatrix®; Pioneer Surgical, Inc., Marquette, MI) comprised of a demineralized bone matrix (DBM), hydroxyapatite, and a nanofiber-based collagen scaffold in a rodent spine fusion model. Thirty-six athymic rats that underwent a posterolateral intertransverse spinal fusion were randomly assigned to 1 of 5 treatment groups: absorbable collagen sponge alone (ACS, negative control), 10 µg rhBMP-2 on ACS (positive control), TrioMatrix®, Grafton® (Osteotech, Inc., Eatontown, NJ), and DBX® (Synthes, Inc., West Chester, PA). Both TrioMatrix® and rhBMP-2-treated animals demonstrated 100% fusion rates as graded by manual palpation scores 8 weeks after implantation. This rate was significantly greater than those of the ACS, Grafton®, and DBX® groups. Notably, the use of TrioMatrix® as evaluated by microCT quantification led to a greater fusion mass volume when compared to all other groups, including the rhBMP-2 group. T2-weighted axial MRI images of the fusion bed demonstrated a significant host response associated with a large fluid collection with the use of rhBMP-2; this response was significantly reduced with the use of TrioMatrix®. Our results therefore demonstrate that a nanocomposite therapy represents a promising, cost-effective bone graft substitute that could be useful in spine fusions where BMP-2 is contraindicated.