A review of pre-admission advanced airway management in combat casualties, Helmand Province 2013.

OBJECTIVES: Airway compromise is the third leading cause of potentially preventable combat death. Pre-hospital airway management has lower success rates than in hospital. This study reviewed advanced airway management focusing on cricothyroidotomies and supraglottic airway devices in combat casualties prior to admission to a Role 3 Hospital in Afghanistan. METHODS: This was a retrospective review of all casualties who required advanced airway management prior to arrival at the Role 3 Hospital, Bastion, Helmand Province over a 30-week period identified by the US Joint Theatre Trauma Registry. The notes and relevant X-rays were analysed. The opinions of US and UK clinical Subject Matter Experts (SME) were then sought. RESULTS: Fifty-seven advanced airway interventions were identified. 45 casualties had attempted intubations, 37 (82%) were successful and of those who had failed intubations, one had a King LT Airway (supraglottic device) and seven had a rescue cricothyroidotomy. The other initial advanced airway interventions were five attempted King LT airways and seven attempted cricothyroidotomies. In total, 14 cricothyroidotomies were performed; in this group, there were nine complications/significant events. CONCLUSIONS: The SMEs suggested that dedicated surgical airway kits should be used and students in training should be taught to secure the cricothyroidotomy tube as well as how to insert it. This review re-emphasises the need to 'ensure the right person, with the right equipment and the right training, is present at the right time if we are to improve the survival of patients with airway compromise on the battlefield'. The audit reference number is RCDM/Res/Audit/1036/12/0368.

Identifying how bacterial cells find their middle: a new perspective.

Bacterial cell division begins with the polymerization of the FtsZ protein to form a Z ring at the division site. This ring subsequently recruits the division machinery to allow cytokinesis. How the Z ring is positioned correctly remains a challenging question in biology and our knowledge in this area has been restricted to a few model species. Spatial regulation of division in these bacteria has been considered to be negatively controlled, with Z rings assembling in the area of least inhibition: the cell centre. An article in this issue of Molecular Microbiology reports the discovery of a new protein in Myxococcus xanthus, called PomZ (Positioning at midcell of FtsZ), that is required for the efficient recruitment of the Z ring to the division site. PomZ is a member of the Mrp/Min family of P loop ATPases that includes a diverse range of proteins involved in spatial regulation in bacteria. PomZ is the first positive regulator of Z ring positioning to be identified in vegetatively growing bacterial cells. Positive spatial regulation of division has previously been observed during sporulation in Streptomyces coelicolor and has been suggested to occur in Bacillus subtilis. Perhaps this will emerge as a common theme in the future.

Influence of the nucleoid and the early stages of DNA replication on positioning the division site in Bacillus subtilis.

Although division site positioning in rod-shaped bacteria is generally believed to occur through the combined effect of nucleoid occlusion and the Min system, several lines of evidence suggest the existence of additional mechanisms. Studies using outgrown spores of Bacillus subtilis have shown that inhibiting the early stages of DNA replication, leading up to assembly of the replisome at oriC, influences Z ring positioning. Here we examine whether Z ring formation at midcell under various conditions of DNA replication inhibition is solely the result of relief of nucleoid occlusion. We show that midcell Z rings form preferentially over unreplicated nucleoids that have a bilobed morphology (lowering DNA concentration at midcell), whereas acentral Z rings form beside a single-lobed nucleoid. Remarkably however, when the DnaB replication initiation protein is inactivated midcell Z rings never form over bilobed nucleoids. Relieving nucleoid occlusion by deleting noc increased midcell Z ring frequency for all situations of DNA replication inhibition, however not to the same extent, with the DnaB-inactivated strain having the lowest frequency of midcell Z rings. We propose an additional mechanism for Z ring positioning in which the division site becomes increasingly potentiated for Z ring formation as initiation of replication is progressively completed.

The unusual antibacterial activity of medical-grade Leptospermum honey: antibacterial spectrum, resistance and transcriptome analysis.

There is an urgent need for new, effective agents in topical wound care, and selected honeys show potential in this regard. Using a medical-grade honey, eight species of problematic wound pathogens, including those with high levels of innate or acquired antibiotic resistance, were killed by 4.0-14.8% honey, which is a concentration that can be maintained in the wound environment. Resistance to honey could not be induced under conditions that rapidly induced resistance to antibiotics. Escherichia coli macroarrays were used to determine the response of bacterial cells to a sub-lethal dose of honey. The pattern of gene expression differed to that reported for other antimicrobial agents, indicating that honey acts in a unique and multifactorial way; 78 (2%) genes were upregulated and 46 (1%) genes were downregulated more than two-fold upon exposure to the medical-grade honey. Most of the upregulated genes clustered into distinct functional regulatory groups, with many involved in stress responses, and the majority of downregulated genes encoded for products involved in protein synthesis. Taken together, these data indicate that honey is an effective topical antimicrobial agent that could help reduce some of the current pressures that are promoting antibiotic resistance.

Unexpected photobleaching of Alexa 488 in a fixed bacterial sample during 2-photon excitation.

A sample of fixed bacterial cells was examined by immunofluorescence microscopy using an Alexa 488 conjugated secondary antibody for visualization. Excitation using visible light confirmed the expected photostability of this fluorophore; however, when using 2-photon excitation, Alexa 488 was rapidly and substantially photobleached. The unexpected instability of Alexa 488 under certain conditions may have deleterious consequences if not anticipated and accommodated in experimental protocols.

Physicians' assessments versus measured symptoms of complex regional pain syndrome type 1: presence and severity.

OBJECTIVE: To assess the validity of physician's judgements of symptoms associated with Complex Regional Pain Syndrome Type 1. METHODS: The validity of physicians' judgments was assessed using measurements with regard to presence and severity of pain, temperature and volume asymmetry, and reduction in active range of motion in 66 Complex Regional Pain Syndrome Type 1 outpatients. Measurements were performed using Visual Analog Scales and McGill (number of words chosen total) for pain, infrared thermography for temperature differences, water displacement volumeters for volume differences, and hand-held goniometers for active range of motion. Physicians were blind to the outcomes of the measurements. RESULTS: In general, physicians were capable of determining presence or absence of measured symptoms and indicate the direction of the symptom asymmetry. Establishing presence of temperature and volume asymmetries was, however, inadequate. Poor to moderate correspondence was found for the severity of individual symptoms between physicians' judgments and measurements. For the total number of assessments, correlation coefficients ranged from 0.39 for Volume to 0.68 for Pain. In general, lower correlations and percentages of association for Volume and Temperature were found. Monitoring changes between consecutive patient assessments showed poor correspondence between both assessment methods, with correlation coefficients ranging from 0.25 for Volume to 0.37 for Pain. CONCLUSIONS: We conclude that establishing the presence of Complex Regional Pain Syndrome Type 1 symptoms, except for temperature and volume asymmetries, and monitoring of disease progression based on these symptoms can be performed by clinical judgment. The severity of the individual symptoms evaluated in this study should be measured with reliable and valid measurement instruments.

Conservation of the 168 divIB gene in Bacillus subtilis W23 and B. licheniformis, and evidence for homology to ftsQ of Escherichia coli.

The chromosomal regions of Bacillus subtilis (Bs) W23 and Bacillus licheniformis (Bl), which span the sequence encoding the homolog of the division initiation gene, divIB, of Bs168 were cloned and sequenced. The high level of conservation of the amino acid (aa) sequence of the DivIB protein (99 and 68% identity for BsW23 and Bl, respectively) was consistent with a significant role for this protein in the cell cycle of the two species. The hydropathy profile for DivIB of Bl was almost identical to that of Bs168 and consistent with a membrane location, as previously established for the latter. The higher than average level of identity (87%) of the 31-aa N-terminal cytoplasmic domain of DivIB between Bs168 and Bl raised the possibility of a special role for this domain. Database analyses using the Bl DivIB sequence and similarity analyses also strongly suggested that DivIB, of Bl and Bs, is a homolog of FtsQ of Escherichia coli. The flanking sequences extending into the unidentified orfs both upstream and downstream from divIB were highly conserved between Bs168 and Bl at both the nucleotide and aa levels. It was confirmed that orf4 of Bs168 is dispensable.

Coordinating DNA replication with cell division: lessons from outgrowing spores.

Progress in solving the long-standing puzzle of how a cell coordinates chromosome replication with cell division is significantly aided by the use of synchronous cell populations. Currently three systems are employed for obtaining such populations: the Escherichia coli 'baby machine', the developmentally-controlled cell cycle of Caulobacter crescentus, and Bacillus subtilis germinated and outgrowing spores. This review examines our current understanding of the relationship between replication and division and how the use of B. subtilis outgrowing spores and, more recently its combination with immunofluorescence microscopy, has contributed significantly to this important area of biology. About 20 years ago, and also more recently, this system was used to show convincingly that termination of DNA replication is not essential for a central septum to form, raising the possibility that the early stages of division occur well before termination. It has also been demonstrated that there is no major synthesis of the division initiation proteins, FtsZ and DivIB, linked to initiation, progression or completion of the first round of chromosome replication accompanying spore outgrowth. This has led to the suggestion that the primary link between chromosome replication and cell division at midcell is not likely to occur through a control over the levels of these proteins. Very recent work has employed a combination of the use of B. subtilis outgrowing spores with immunofluorescence microscopy to investigate the relationship between midcell Z ring assembly and the round of chromosome replication linked to it. The results of this work suggest a role for initiation and progression into the round of replication in blocking midcell Z ring formation until the round is complete or almost complete, thereby ensuring that cell division occurs between two equally-partitioned chromosomes.

The animal pharmacology of buprenorphine, an oripavine analgesic agent.

1. The general pharmacology of buprenorphine, a potent analgesic agent derived from oripavine, is described. 2. After cute administration of buprenorphine, the spontaneous locomotor activity of mice was increased; rats displayed stereotyped licking and biting movements; behavioural depression was marked in guinea-pigs but mild in rhesus monkeys. The behaviour of cats was unchanged. 3. In general, buprenorphine reduced heart rate but had no significant effect on arterial blood pressure in conscious rats and dogs. 4. In anaesthetized, open-chest cats buprenorphine (0.10 and 1.0 mg/kg, i.v.) caused no major haemodynamic changes. 5. Buprenorphine (0.01-10 mg/kg i.a.) and morphine (0.30-30 mg/kg, i.a.) increased arterial PCO2 values and reduced PO2 values in conscious rats. With doses of buprenorphine greater than 0.10 mg/kg (a) the duration of respiratory depression became less, (b) ceiling effects occurred such that the maximum effects produced were less than those obtained with morphine. 6. Buprenorphine was a potent and long-lasting antagonist of citric acid-induced coughing in guinea-pigs. 7. At a dose level 20 times greater than the ED50 for antinociception (tail pressure), morphine suppressed urine output to a greater extent than the corresponding dose of buprenorphine in rats. 8. Over the range 0.01-1.0 mg/kg (s.c.), buprenorphine slowed the passage of a charcoal meal along the gastrointestinal tract in rats. After doses in excess of 1 mg/kg, the meal travelled increasingly further such that the distances measured at 10 and 30 mg/kg did not differ significantly from control values. In contrast, the morphine dose-response relationship was linear.

Requirement for the cell division protein DivIB in polar cell division and engulfment during sporulation in Bacillus subtilis.

During spore formation in Bacillus subtilis, cell division occurs at the cell pole and is believed to require essentially the same division machinery as vegetative division. Intriguingly, although the cell division protein DivIB is not required for vegetative division at low temperatures, it is essential for efficient sporulation under these conditions. We show here that at low temperatures in the absence of DivIB, formation of the polar septum during sporulation is delayed and less efficient. Furthermore, the polar septa that are complete are abnormally thick, containing more peptidoglycan than a normal polar septum. These results show that DivIB is specifically required for the efficient and correct formation of a polar septum. This suggests that DivIB is required for the modification of sporulation septal peptidoglycan, raising the possibility that DivIB either regulates hydrolysis of polar septal peptidoglycan or is a hydrolase itself. We also show that, despite the significant number of completed polar septa that form in this mutant, it is unable to undergo engulfment. Instead, hydrolysis of the peptidoglycan within the polar septum, which occurs during the early stages of engulfment, is incomplete, producing a similar phenotype to that of mutants defective in the production of sporulation-specific septal peptidoglycan hydrolases. We propose a role for DivIB in sporulation-specific peptidoglycan remodelling or its regulation during polar septation and engulfment.

Cell division in Bacillus subtilis: FtsZ and FtsA association is Z-ring independent, and FtsA is required for efficient midcell Z-Ring assembly.

The earliest stage in cell division in bacteria is the assembly of a Z ring at the division site at midcell. Other division proteins are also recruited to this site to orchestrate the septation process. FtsA is a cytosolic division protein that interacts directly with FtsZ. Its function remains unknown. It is generally believed that FtsA localization to the division site occurs immediately after Z-ring formation or concomitantly with it and that FtsA is responsible for recruiting the later-assembling membrane-bound division proteins to the division site. Here, we report the development of an in vivo chemical cross-linking assay to examine the association between FtsZ and FtsA in Bacillus subtilis cells. We subsequently use this assay in a synchronous cell cycle to show that these two proteins can interact prior to Z-ring formation. We further show that in a B. subtilis strain containing an ftsA deletion, FtsZ localized at regular intervals along the filament but the majority of Z rings were abnormal. FtsA in this organism is therefore critical for the efficient formation of functional Z rings. This is the first report of abnormal Z-ring formation resulting from the loss of a single septation protein. These results suggest that in this organism, and perhaps others, FtsA ensures recruitment of the membrane-bound division proteins by ensuring correct formation of the Z ring.

Bacterial cell division: regulating Z-ring formation.

The earliest stage of cell division in bacteria is the formation of a Z ring, composed of a polymer of the FtsZ protein, at the division site. Z rings appear to be synthesized in a bi-directional manner from a nucleation site (NS) located on the inside of the cytoplasmic membrane. It is the utilization of a NS specifically at the site of septum formation that determines where and when division will occur. However, a Z ring can be made to form at positions other than at the division site. How does a cell regulate utilization of a NS at the correct location and at the right time? In rod-shaped bacteria such as Escherichia coli and Bacillus subtilis, two factors involved in this regulation are the Min system and nucleoid occlusion. It is suggested that in B. subtilis, the main role of the Min proteins is to inhibit division at the nucleoid-free cell poles. In E. coli it is currently not clear whether the Min system can direct a Z ring to the division site at mid-cell or whether its main role is to ensure that division inhibition occurs away from mid-cell, a role analogous to that in B. subtilis. While the nucleoid negatively influences Z-ring formation in its vicinity in these rod-shaped organisms, the exact relationship between nucleoid occlusion and the ability to form a mid-cell Z ring is unresolved. Recent evidence suggests that in B. subtilis and Caulobacter crescentus, utilization of the NS at the division site is intimately linked to the progress of a round of chromosome replication and this may form the basis of achieving co-ordination between chromosome replication and cell division.

Cloning and expression of a Bacillus subtilis division initiation gene for which a homolog has not been identified in another organism.

The Bacillus subtilis 168 division initiation genes defined by the temperature-sensitive mutations ts-1 and ts-12 were cloned into a 10.5-kilobase EcoRI fragment of DNA in the lambda EMBL4 vector. The two genes were separated by approximately 3 kilobases. The gene in which the ts-1 mutation resides was shown to be the same as the B. subtilis homolog of the Escherichia coli ftsZ gene. The other gene was named divIB. It showed no homology to any previously identified gene and coded for a protein of 30.1 kilodaltons which was probably membrane bound.

The membrane-bound cell division protein DivIB is localized to the division site in Bacillus subtilis.

The cell division gene divIB of Bacillus subtilis is essential for the normal rate of growth and division. The gene product, DivIB, is a membrane-bound protein in which the bulk of the protein (at the C-terminal end) is on the exterior surface of the cell membrane. DivIB is involved in the early stages of septum formation, but its exact role in cell division is unknown. To gain more information about the mode of action of DivIB in septum formation, we determined the location of DivIB within the cell membrane using immunofluorescence. This immunolocalization approach established that DivIB becomes localized to the division site before visible septation and remains localized to this site throughout the division process. Various DivIB immunostaining patterns were observed in immunofluorescence experiments and, together with cell length and nucleoid distance measurements, have allowed us to propose two models to describe DivIB localization during the cell cycle.

Use of immunofluorescence to visualize cell-specific gene expression during sporulation in Bacillus subtilis.

We have adapted immunofluorescence microscopy for use in Bacillus subtilis and have employed this procedure for visualizing cell-specific gene expression at early to intermediate stages of sporulation. Sporangia were doubly stained with propidium iodide to visualize the forespore and mother cell nucleoids and with fluorescein-conjugated antibodies to visualize the location of beta-galactosidase produced under the control of the sporulation RNA polymerase sigma factors sigma E and sigma F. In confirmation and extension of earlier reports, we found that expression of a lacZ fusion under the control of sigma E was confined to the mother cell compartment of sporangia at the septation (II) and engulfment (III) stages of morphogenesis. Conversely, sigma F-directed gene expression was confined to the forespore compartment of sporangia at postseptation stages of development. Little indication was found for sigma E- or sigma F-directed gene expression prior to septation or in both compartments of postseptation sporangia. Gene expression under the control of the forespore sigma factor sigma G also exhibited a high level of compartmentalization. A high proportion of sporangia exhibited fluorescence in our immunostaining protocol, which should be suitable for the subcellular localization of sporulation proteins for which specific antibodies are available.

Characterization of mutations in divIB of Bacillus subtilis and cellular localization of the DivIB protein.

Four temperature-sensitive mutations in the divIB gene of Bacillus subtilis have been localized to the region corresponding to the C-terminal half of the 263-residue DivIB protein. Antiserum was raised to the 80% C-terminal portion lying on one side of a putative transmembrane (hydrophobic) segment, and used to examine aspects of the nature and localization of the DivIB protein in the cell. A single DivIB species of a size equal to the full-length protein encoded by the divIB gene was detected in wild-type cells. Cell fractionation studies established that DivIB is associated preferentially with the cell envelope (membrane plus cell wall), with approximately 50% being released into solution upon treatment of cells with lysozyme under conditions that yield protoplasts. Of the remaining 50%, approximately half remained firmly associated with the membrane fraction. On the basis of the 'positive-inside rule' of von Heijne (1986) it is suggested that the topology of membrane-bound DivIB is such that the long C-terminal portion is directed to the outside and the smaller N-terminal portion to the inside of the cell. DivIB in protoplasts was rapidly degraded by proteinase K under conditions where there was no general proteolysis of the cytoplasmic proteins. This is consistent with its absence from the cytoplasm, and with the predicted membrane topology. Septum positioning in a divIB null mutant, which grows as filaments at temperatures of 30 degrees C and below, was found to be normal. It appears that DivIB is needed for achieving the appropriate rate of initiation of septum formation at normal division sites. It is proposed that the C-terminal portion of DivIB, localized on the exterior surface of the membrane and in juxtaposition to the peptidoglycan, normally interacts with another protein (or proteins) to initiate septum formation.

Role of penicillin-binding protein PBP 2B in assembly and functioning of the division machinery of Bacillus subtilis.

We have characterized the role of the penicillin-binding protein PBP 2B in cell division of Bacillus subtilis. We have shown that depletion of the protein results in an arrest in division, but that this arrest is slow, probably because the protein is relatively stable. PBP 2B-depleted filaments contained, at about their mid-points, structures resembling partially formed septa, into which most, if not all, of the division proteins had assembled. Although clearly deficient in wall material, membrane invagination seemed to continue, indicating that membrane and wall ingrowth can be uncoupled. At other potential division sites along the filaments, no visible ingrowths were observed, although FtsZ rings assembled at regular intervals. Thus, PBP 2B is apparently required for both the initiation of division and continued septal ingrowth. Immunofluorescence microscopy showed that the protein is recruited to the division site. The pattern of localization suggested that this recruitment occurs continually during septal ingrowth. During sporulation, PBP 2B was present transiently in the asymmetrical septum of sporulating cells, and its availability may play a role in the regulation of sporulation septation.