Krogmccann3796
Peptide receptor radionuclide therapy (PRRT) is an effective treatment for metastatic carcinoid tumours but can precipitate a carcinoid crisis through release of stored bioamines. Cardiac arrest is an uncommon manifestation of carcinoid crisis and has never been reported as a complication of PRRT. We report a case of a 58-year old female who suffered from cardiac arrest following PRRT for metastatic carcinoid tumour. She was successfully resuscitated using intravenous octreotide following 22 min of failure to resuscitate with a standard advanced cardiac life support protocol. Following resuscitation, severe carcinoid heart disease was diagnosed, and the patient subsequently underwent successful surgical valve replacement. Although there is no trial evidence, considering pharmacological rationale and successful outcome in this case, we suggest early administration of intravenous octreotide during resuscitation of patients suffering cardiac arrest post PRRT for carcinoid disease and recommend preventive strategies.Influenza viruses initiate infection via specific interactions of hemagglutinin (HA) with host cell surface sialic acid-containing glycans. Antigenic drift has resulted in HA amino acid sequence changes that affect binding properties for sialic acids. Further, viral propagation in eggs and cell culture for vaccine production can yield variants with mutations that affect the conformation and affinity of HA for sialic acids. Therefore, influenza vaccine researchers and manufacturers need robust analytical methods to assess directly the ability of vaccine candidates to bind to their specific sialic acid ligand. We developed a surface plasmon resonance method that uses an extended, biantennary glycan terminating with α-2,6 linked sialic acids to bind influenza HA and assess this interaction. Recombinant HA (rHA) from both influenza A and B viruses isolated from 1999 to 2017 strongly and specifically bind this sialic acid ligand, suggesting the binding ability of divergent HA for this ligand is resistant to antigenic drift. Importantly, the method can differentiate between wild type and mutant rHA for which binding to this sialylated glycan and red blood cells in hemagglutination assays is compromised. click here We believe this method can be a powerful tool to screen influenza A and B vaccine candidates and final vaccine preparations for their functional ability to bind sialic acids, which allows manufacturers to identify preparations in which mutations that affect sialic acid binding have arisen during propagation. Evaluation of vaccine rHA antigen integrity by confirmation of the receptor binding site functionality is a prudent cautionary step to assure the antigenic quality of seasonal influenza vaccines.
Transvertebral Bone Graft and Augmentation (TBGA) has achieved good clinical effects in the treatment of osteoporotic vertebral compression fractures (OVCFs). This study aimed to investigate the postoperatively biomechanical effects of TBGA and compare the biomechanical sensitivity of two different augmenters a cylindrical enhancement device (CED) and bone cement.
Finite element models of the spine segment T11-L3 were created, including one model based on normal segment and the other three with L1 augmentation for pathological conditions. Three treatments were simulated including CED implant treatment A, CED implant treatment B, and bone cement treatment. The stress distribution and maximum displacement of the four models under different treatments were analyzed. A method of linear fitting of dummy variables was used to analyze the sensitivity of biomechanical parameters to the degree of osteoporosis (DO) and load.
The reduction of stress with increasing DO in augmented and adjacent vertebral bodies und and adjacent vertebral, which could be beneficial for avoiding re-fracture. Using TBGA to treat OVCFs, especially with Plan B method, the condition of the pathological spine is closer to the original status in terms of the sensitivity to stress and the spinal range of motion. The TBGA treatment is sensitive to lateral bending and torsion, therefore patients should be advised to avoid high-risk motions like lateral bending and rotation.Advancements in the care for patients with early stage HER2-positive breast cancer is a story of incremental successes aimed at optimizing efficacy and reducing the toxicities of administered therapies. HER2 drives an aggressive breast cancer subtype that represents 15%-20% of breast cancers, for which HER2-targeted therapy is very active. In addition to trastuzumab, pertuzumab, neratinib, and ado-trastuzumab emtansine have been approved in recent years for the treatment of high-risk early stage HER2-positive breast cancer. As a result of both a high response rate to neoadjuvant therapy and the opportunity for response-adapted adjuvant therapy, the treatment paradigm has evolved so that most patients with stage II and III disease now receive neoadjuvant therapy. Additionally, the efficacy of HER2-therapy allows for de-escalation of treatment in many patients with stage I disease. As a result, multidisciplinary evaluation is essential for the optimal care of patients with HER2-positive breast cancer. Important areas of further research include tailoring the duration and intensity of therapy based on disease risk and response to neoadjuvant therapy. This article will review the evaluation of patients with early stage HER2-positive breast cancer and provide an evidence- and guideline-based summary of risk-based treatment strategies.This case report highlights an ocular complication associated with platelet-rich plasma temporomandibular joint injections. This pioneering treatment can risk irreversible visual loss. This case highlights the importance of an experienced technique, in depth understanding of facial anatomy, and promptly recognising and referring the patient to a specialist to manage the complication should it arise.Robotic surgery has become more common in otolaryngologic surgery since the introduction of the da Vinci robotic system, but has played a limited role in anterior and central skull base surgery, largely because of technical limitations of existing robots. Current robotic technology has been used in creative ways to access the skull base, but was not designed to navigate these complex anatomic constraints. Novel robots should target many of the limitations of current robotic technology, such as maneuverability, inability to suture, lack of haptic feedback, and absent integration with image guidance.
