Browsing by Subject "Telemetry"
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Item Open Access 2023 HRS/EHRA/APHRS/LAHRS Expert Consensus Statement on Practical Management of the Remote Device Clinic.(Europace : European pacing, arrhythmias, and cardiac electrophysiology : journal of the working groups on cardiac pacing, arrhythmias, and cardiac cellular electrophysiology of the European Society of Cardiology, 2023-05) Ferrick, Aileen M; Raj, Satish R; Deneke, Thomas; Kojodjojo, Pipin; Lopez-Cabanillas, Nestor; Abe, Haruhiko; Boveda, Serge; Chew, Derek S; Choi, Jong-Il; Dagres, Nikolaos; Dalal, Aarti S; Dechert, Brynn E; Frazier-Mills, Camille G; Gilbert, Olivia; Han, Janet K; Hewit, Sherri; Kneeland, Christine; Mirza, Starr DeEllen; Mittal, Suneet; Ricci, Renato Pietro; Runte, Mary; Sinclair, Susan; Alkmim-Teixeira, Ricardo; Vandenberk, Bert; Varma, Niraj; Davenport, Elizabeth; Freedenberg, Vicki; Glotzer, Taya V; Huang, Jin-Long; Ikeda, Takanori; Kramer, Daniel B; Lin, David; Rojel-Martínez, Ulises; Stühlinger, Markus; Varosy, Paul DRemote monitoring is beneficial for the management of patients with cardiovascular implantable electronic devices by impacting morbidity and mortality. With increasing numbers of patients using remote monitoring, keeping up with higher volume of remote monitoring transmissions creates challenges for device clinic staff. This international multidisciplinary document is intended to guide cardiac electrophysiologists, allied professionals, and hospital administrators in managing remote monitoring clinics. This includes guidance for remote monitoring clinic staffing, appropriate clinic workflows, patient education, and alert management. This expert consensus statement also addresses other topics such as communication of transmission results, use of third-party resources, manufacturer responsibilities, and programming concerns. The goal is to provide evidence-based recommendations impacting all aspects of remote monitoring services. Gaps in current knowledge and guidance for future research directions are also identified.Item Open Access A wireless multi-channel recording system for freely behaving mice and rats.(PLoS One, 2011) Fan, David; Rich, Dylan; Holtzman, Tahl; Ruther, Patrick; Dalley, Jeffrey W; Lopez, Alberto; Rossi, Mark A; Barter, Joseph W; Salas-Meza, Daniel; Herwik, Stanislav; Holzhammer, Tobias; Morizio, James; Yin, Henry HTo understand the neural basis of behavior, it is necessary to record brain activity in freely moving animals. Advances in implantable multi-electrode array technology have enabled researchers to record the activity of neuronal ensembles from multiple brain regions. The full potential of this approach is currently limited by reliance on cable tethers, with bundles of wires connecting the implanted electrodes to the data acquisition system while impeding the natural behavior of the animal. To overcome these limitations, here we introduce a multi-channel wireless headstage system designed for small animals such as rats and mice. A variety of single unit and local field potential signals were recorded from the dorsal striatum and substantia nigra in mice and the ventral striatum and prefrontal cortex simultaneously in rats. This wireless system could be interfaced with commercially available data acquisition systems, and the signals obtained were comparable in quality to those acquired using cable tethers. On account of its small size, light weight, and rechargeable battery, this wireless headstage system is suitable for studying the neural basis of natural behavior, eliminating the need for wires, commutators, and other limitations associated with traditional tethered recording systems.Item Open Access How can innovative uses of technology be harnessed to improve medication adherence?(Expert review of pharmacoeconomics & outcomes research, 2012-04) Bosworth, Hayden BItem Open Access Inferring Survival and Mortality of Stranded Common Dolphins Off Cape Cod, MA Using Satellite Telemetry Data(2020-04-24) White, AudreyOver the past decade, post-release monitoring of stranded cetaceans has been facilitated by the use of satellite-linked telemetry. On Cape Cod, 76 stranded common dolphins, (Delphinus delphis) have been released with satellite tags since 2012, leading to new discoveries about their behavior and habitat use. However, these tags seldom transmit for their entire battery life, leading to questions about the survival and mortality of animals following rescue. My project examined whether or not it is possible to infer post-release mortality through an analysis of three behavioral parameters: swim speed; turning angle; and number of messages received per day. Three individuals in this data set are known to have died because their carcasses were recovered on shore. I used data from these three animals to characterize behavioral patterns associated with known mortality. These three individuals had transmission periods ranging from less than one day to six days. I assume that 36 dolphins with transmission periods of longer than 21 days survived, and I examined the three behavioral parameters for signs of mortality in 27 dolphins for which transmission period was less than 21 days. Dolphins that were known to have died following release exhibited slower swim speeds (Kolmogorov-Smirnov=0.27, p=0.0002) and a smaller turning angle (KS=0.2, p=0.0047). The number of messages received per day was complicated by inconsistent duty cycling and limitations in maximum number of messages allowed per day and results from this analysis were inconclusive. Understanding the post-release survival and mortality of stranded and rescued marine mammals will help stranding programs determine which animals are good candidates for release and improve rescue techniques on the beach.Item Open Access Reductions in telemetry order duration do not reduce telemetry utilization.(J Hosp Med, 2014-12) Boggan, JC; Navar-Boggan, AM; Patel, V; Schulteis, RD; Simel, DLItem Open Access Social behavior of the Cuvier’s beaked whale (Ziphius cavirostris) investigated by telemetry and photo-identification(2020) Cioffi, William RichardStudies of the social behavior of Cuvier’s beaked whales (Ziphius cavirostris) are challenging because of their pelagic habitat and the limited time they spend at the surface. The sociality of these deepest diving mammals is of great interest, however, including how social behavior might influence responses to anthropogenic disturbance as this species has a history of stranding in association with certain types of human-created noise. Beyond conservation concerns, the beaked whales (Family Ziphiidae) are a valuable group for the comparative study of the ecological influences on mammalian social evolution since they are an “out group within an out group”, including some of the most extreme diving mammals within the Cetacea which are themselves one of the few mammalian groups to become secondarily fully aquatic. The beaked whales are also the second most speciose family in the cetaceans and so can lend statistical power to formal comparative analyses. One unifying characteristic of most beaked whale species is sexually dimorphic dentition, where only adult males have erupted tusks which they appear to use as weapons in contests with each other as evidenced by the high level of scarring in adult males. Despite this, previous studies suggest a substantial amount of variation in beaked whale social structure and mating systems.
In this work, I investigated the social behavior of a relatively accessible, high density population of Cuvier’s beaked whales off the coast of Cape Hatteras, North Carolina, USA. I used data from photo identification surveys from a longitudinal study, as well as satellite-linked depth-recording telemetry tags to investigate within and between group behavior. In addition, I present a case study and assessment of how I optimized the programming of telemetry instruments to increase their value in behavioral studies.
I tested the stability of adult male-male interactions over the medium term using diving synchrony as a proxy for group membership and found that adult male-male pairs stayed remarkably synchronous for days to weeks, contrary to expectations that individuals would quickly competitively exclude each other. Using photo-identification records of whole groups, I did not find strong evidence for sexual segregation and instead found a high level of fission-fusion behavior between groups. In addition, I did not find strong evidence for long term stable group formations, although given the large population size and a relatively small sample size infrequent but important bonds among individuals may have been missed. Using a new programming regime to collect up to 14 days of time-series depth data on an individual, I was able to confirm that diel differences in dive depth were almost entirely explained by bouts of shallow diving which occur only a night. These shallow dives appear to be a separate mode of diving behavior not previously well described in the literature, and although this behavior may have multiple functions, it may be a useful behavioral modality to investigate further in relation to social behavior.
Finally, I argue that the application of similar methods used here combining photo-identification and telemetry tagging could lead to rapid discovery of social parameters in other hard to study pelagic Cetaceans including other Ziphiidae with a view toward building a comparative dataset.
Item Open Access Sooty tern (Onychoprion fuscatus) survival, oil spills, shrimp fisheries, and hurricanes.(PeerJ, 2017-01) Huang, Ryan M; Bass, Oron L; Pimm, Stuart LMigratory seabirds face threats from climate change and a variety of anthropogenic disturbances. Although most seabird research has focused on the ecology of individuals at the colony, technological advances now allow researchers to track seabird movements at sea and during migration. We combined telemetry data on Onychoprion fuscatus (sooty terns) with a long-term capture-mark-recapture dataset from the Dry Tortugas National Park to map the movements at sea for this species, calculate estimates of mortality, and investigate the impact of hurricanes on a migratory seabird. Included in the latter analysis is information on the locations of recovered bands from deceased individuals wrecked by tropical storms. We present the first known map of sooty tern migration in the Atlantic Ocean. Our results indicate that the birds had minor overlaps with areas affected by the major 2010 oil spill and a major shrimp fishery. Indices of hurricane strength and occurrence are positively correlated with annual mortality and indices of numbers of wrecked birds. As climate change may lead to an increase in severity and frequency of major hurricanes, this may pose a long-term problem for this colony.Item Open Access SPATIAL DISTRIBUTION AND MIGRATORY CONNECTIVITY OF SHARKS IN THE GULF OF MEXICO(2019-04-13) Whitten, MeredithSince the 1950s, highly migratory shark species worldwide have experienced severe declines, with some populations in the Gulf of Mexico showing decreases of more than 90%. As a result, there is a clear need for better data and tools to inform the spatial and temporal management of shark populations. In recent years, the use of satellite and acoustic tracking has increased, but there has been limited critical assessment of the current state of knowledge resulting from these studies. In partnership with The Nature Conservancy’s Migratory Blueways Project, this study aims to fill this gap through 1) a comprehensive, systematic literature review of available telemetry data and 2) a comparative analysis of multiple methods for processing satellite telemetry data. The literature review analyzed telemetry tagging papers for 10 species of highly migratory sharks in the Gulf of Mexico: Whale sharks, silky sharks, great white sharks, great hammerheads, scalloped hammerheads, tiger sharks, bull sharks, oceanic whitetips, shortfin makos, and longfin makos. These species were chosen based on their highly migratory behavior and the level of threat to their populations. The review used the very broad search terms “shark” and “Gulf of Mexico” which returned over 1000 results. After filtering the results for relevancy, only 15 telemetry tagging studies for these species were identified. Two of the most threatened species, oceanic whitetips and silky sharks, had no coverage in the literature. The date range for the papers was 2008-2019, with an increasing trend in number of publications over time. Many species were missing tagging data from regions of the Gulf of Mexico, with no tagging occurring in the southwestern Gulf. Scalloped hammerheads showed a heavily male skewed sex ratio in the individuals tagged, indicating missing information about female behavior. Recommendations from this review include better collaboration between institutions to help reduce costs of collecting data and to increase the amount of data available. The second part of this research compared methods for processing satellite telemetry data used by The Nature Conservancy (TNC) and the Migratory Connectivity in the Ocean (MiCO) projects on the same dataset of 12 hammerhead sharks. TNC utilized a line density method, while MiCO utilized state-space modeling to generate kernel density estimates (KDE). TNC’s work was conducted using Python coding language, while MiCO uses R packages. The results showed that the overall products are similar, with the TNC product covering 22% more area of the Gulf, likely due to MiCO’s more rigorous filtering methods. TNC’s methods were faster but are less supported by scientific literature, so MiCO’s methods are likely preferred for making management decisions. Overall, choosing a method depends on the expertise and intentions of the user group. Introducing more data from other spatial regions of the Gulf would contribute to developing better products for use in conservation and policy.