[SIZE=14.6667px]Image Source:[/SIZE] N/A
Intent: To create an effective medical device.
Development Thread: N/A
Manufacturer: [SIZE=14.6667px]Panacea[/SIZE]
[SIZE=14.6667px]Model: N/A[/SIZE]
[SIZE=14.6667px]Affiliation:[/SIZE][SIZE=14.6667px] Open Market (Private Market for Performance Implant Variant)[/SIZE]
[SIZE=14.6667px]Modularity:[/SIZE][SIZE=14.6667px] Yes, programming can be modified[/SIZE]
[SIZE=14.6667px]Production: Mass Production (Limited for Performance Implant Variant)[/SIZE]
[SIZE=14.6667px]Material: [/SIZE][SIZE=14.6667px]Ferrocarbon[/SIZE][SIZE=14.6667px], [/SIZE][SIZE=14.6667px]Memristor[/SIZE][SIZE=14.6667px], Polymers, Internal Components[/SIZE]
[SIZE=14.6667px]Special Features: [/SIZE]
[SIZE=14.6667px]Strengths: [/SIZE]
[SIZE=14.6667px]+[/SIZE][SIZE=14.6667px]Implants are able to immediately react to foreign agents being introduced into the host’s system, like mutagens (viruses). [/SIZE]
[SIZE=14.6667px]+[/SIZE][SIZE=14.6667px]Resistant to electronic attacks, [/SIZE][SIZE=14.6667px]cyberwarfare[/SIZE][SIZE=14.6667px], and EMP/ion energy. [/SIZE]
[SIZE=14.6667px]+[/SIZE][SIZE=14.6667px]After death, the implants will still work to try to prevent the spread of disease and keep the host from mutating by rapid breakdown of the host’s corpse. [/SIZE]
[SIZE=14.6667px]Weaknesses:[/SIZE]
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Becomes less effective at administering treatment in instances where the user receives increasing levels of trauma.
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Has no capabilities for tissue regeneration.
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Performance is adversely affected by poor lifestyle choices (e.g. obesity, smoking, alcoholism).
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Implant users require increased caloric intake to provide material for conversion.
[SIZE=14.6667px]Description
Allegro is a series of medical implants and dispensers designed to monitor [/SIZE][SIZE=14.6667px]health[/SIZE][SIZE=14.6667px] and to administer [/SIZE][SIZE=14.6667px]personalized medicines [/SIZE][SIZE=14.6667px]and other chemicals to treat illnesses and provide first aid. A [/SIZE][SIZE=14.6667px]high performance variant of the implants has additional functionality, able to dispense performance enhancing stimulants. The first series of implants were personally developed by Panacea’s first CEO, Suravi Teigra[/SIZE][SIZE=14.6667px], during the early days of the biotech firm. Having personally lived through the horrors brought on by the Gulag Plague, she looked to ensure the populace of the Kiribian Systems Union would have better protection in the event a similar epidemic befell the galaxy. More recently, the newest iteration of Allegro has become a popular item with the rise of bioterrorism.
The kit consists of small [/SIZE][SIZE=14.6667px]molecular converters[/SIZE][SIZE=14.6667px] tied to a host’s [/SIZE][SIZE=14.6667px]endocrine system[/SIZE][SIZE=14.6667px] or its equivalent in non-human species. The converters siphon a small portion of hormones produced by glands to use as fuel for producing compounds. Rice-sized sensors are dispersed throughout the body to monitor the host’s physical and mental state, using a combination of electromagnetic scans and physical intake of microscopic tissue samples. A memristor-based processing unit, based [/SIZE][SIZE=14.6667px]inside[/SIZE][SIZE=14.6667px] the primary converter module, analyzes readouts from the sensors for symptoms to determine if any medication needs to be administered. In the cases where it is required, the processing unit gives instructions to the molecular converters on what compounds to produce. The whole system is powered by capacitors that are charged wirelessly without risk of radiation to the host. Allegro can operate between 12-72 hours per charge, all dependent on the state of its host. [/SIZE]
[SIZE=14.6667px]To optimize the effectiveness of the treatments, the exact dosage and molecular makeup of the medications produced are personally tailored to the unique biochemistry of the host, based [/SIZE][SIZE=14.6667px]off of[/SIZE][SIZE=14.6667px] the host’s specific genetic makeup. The strategy of administering personally tailored drugs gives Allegro an edge over other medical implants that take a blanket approach of dispensing [/SIZE][SIZE=14.6667px]bacta[/SIZE][SIZE=14.6667px]/[/SIZE][SIZE=14.6667px]kolto[/SIZE][SIZE=14.6667px] and premade concoctions which may not be the ideal solution for treatment.[/SIZE]
[SIZE=14.6667px]The processing unit has wireless uplink/downlink abilities, able to communicate with Panacea data centers to improve the speed and accuracy of diagnoses with a boost from cloud computing. Allegro can also interface with approved personal devices and systems used by hospitals and paramedic units to provide readouts and reports for analysis. For security purposes, each Allegro kit comes pre-installed with Mithril security software. Mithril is also used as an anti-tampering measure to prevent users from altering the systems to eliminate the risk of dangerous unprescribed actions like the production of hallucinogens. [/SIZE]
[SIZE=14.6667px]A standalone dispenser is also offered for instances where the implant option is not wanted or desired. It has an integrated [/SIZE][SIZE=14.6667px]bioscanner, and uses canisters of synthetic chemicals for the production of medication. It uses a standard power cell for operation. The dispenser is equally as effective as the implants in providing medication, but the deployment process is much slower in comparison to the integrated implants which can respond immediately to changes by [/SIZE][SIZE=14.6667px]intravenous delivery. There is no dispenser equivalent for the performance implant. [/SIZE]
[SIZE=14.6667px]The following is a list of scenarios (on a human) to give users an idea of the strategies Allegro takes to deal with diseases and injury. This is by no means an exhaustive list, or there would be an encyclopedia’s worth of treatments to cover.[/SIZE]
[SIZE=14.6667px]Primary Sources[/SIZE]
[SIZE=14.6667px]Real World Inspiration [/SIZE]
[SIZE=14.6667px]Mayo Clinic Staff, “Consumer Health Personalized Medicine and Pharmacogenomics,” [/SIZE][SIZE=14.6667px]Mayoclinic[/SIZE][SIZE=14.6667px] June 5, 2015, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.mayoclinic.org/healthy-lifestyle/consumer-health/in-depth/personalized-medicine/art-20044300[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“WebMD,” accessed January 28, 2017, [/SIZE][SIZE=14.6667px]https://www.wikiwand.com/en/WebMD[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“FDA Approves Computer Chip for Humans,” [/SIZE][SIZE=14.6667px]Health care[/SIZE][SIZE=14.6667px], October 13, 2004, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.nbcnews.com/id/6237364/ns/health-health_care/t/fda-approves-computer-chip-humans/[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“Chip Implant No Bigger Than a Grain of Rice Is Powered by Wireless Breakthrough,” May 19, 2014, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.theverge.com/2014/5/19/5730132/wireless-power-implants-ada-poon[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“Brain Monitor the Size of a Grain of Rice Dissolves After Use,” January 18, 2016, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]https://www.newscientist.com/article/dn28790-brain-monitor-the-size-of-a-grain-of-rice-dissolves-after-use/[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“Wireless ‘neural dust’ Could Monitor Your Brain,” accessed January 28, 2017, http://www.popsci.com/tiny-wireless-implants-could-monitor-your-brain. [/SIZE]
[SIZE=14.6667px]“IBM Creates A Molecule That Could Destroy All Viruses,” accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.popsci.com/macromolecule-developed-by-ibm-could-fight-multiple-viruses-at-once[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“A Brief History of How Fighter Pilots Battle Fatigue, from 1932 to the Present,” accessed January 28, 2017, [/SIZE][SIZE=14.6667px]https://vanwinkles.com/how-fighter-pilots-battle-fatigue[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]YO Schumacher et al., “Artificial Oxygen Carriers--the New Doping Threat in Endurance Sport?,” International journal of sports medicine. 22, no. 8 (November 24, 2001), accessed January 28, 2017, https://www.ncbi.nlm.nih.gov/pubmed/11719891. [/SIZE]
Intent: To create an effective medical device.
Development Thread: N/A
Manufacturer: [SIZE=14.6667px]Panacea[/SIZE]
[SIZE=14.6667px]Model: N/A[/SIZE]
[SIZE=14.6667px]Affiliation:[/SIZE][SIZE=14.6667px] Open Market (Private Market for Performance Implant Variant)[/SIZE]
[SIZE=14.6667px]Modularity:[/SIZE][SIZE=14.6667px] Yes, programming can be modified[/SIZE]
[SIZE=14.6667px]Production: Mass Production (Limited for Performance Implant Variant)[/SIZE]
[SIZE=14.6667px]Material: [/SIZE][SIZE=14.6667px]Ferrocarbon[/SIZE][SIZE=14.6667px], [/SIZE][SIZE=14.6667px]Memristor[/SIZE][SIZE=14.6667px], Polymers, Internal Components[/SIZE]
[SIZE=14.6667px]Special Features: [/SIZE]
[SIZE=14.6667px]Subspace [/SIZE][SIZE=14.6667px]Radio[/SIZE]
[SIZE=14.6667px]Biocomm [/SIZE][SIZE=14.6667px](Performance Implant Variant Only)[/SIZE]
[SIZE=14.6667px]Mithril Security Software[/SIZE]
[SIZE=14.6667px]EMP/Ion Resistance[/SIZE]
[SIZE=14.6667px]Deionizers[/SIZE]
- [SIZE=14.6667px]Energy Sinks[/SIZE]
[SIZE=14.6667px]Strengths: [/SIZE]
[SIZE=14.6667px]+[/SIZE][SIZE=14.6667px]Implants are able to immediately react to foreign agents being introduced into the host’s system, like mutagens (viruses). [/SIZE]
[SIZE=14.6667px]+[/SIZE][SIZE=14.6667px]Resistant to electronic attacks, [/SIZE][SIZE=14.6667px]cyberwarfare[/SIZE][SIZE=14.6667px], and EMP/ion energy. [/SIZE]
[SIZE=14.6667px]+[/SIZE][SIZE=14.6667px]After death, the implants will still work to try to prevent the spread of disease and keep the host from mutating by rapid breakdown of the host’s corpse. [/SIZE]
[SIZE=14.6667px]Weaknesses:[/SIZE]
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Becomes less effective at administering treatment in instances where the user receives increasing levels of trauma.
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Has no capabilities for tissue regeneration.
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Performance is adversely affected by poor lifestyle choices (e.g. obesity, smoking, alcoholism).
[SIZE=14.6667px] [/SIZE] - [SIZE=14.6667px] [/SIZE]Implant users require increased caloric intake to provide material for conversion.
[SIZE=14.6667px]Description
Allegro is a series of medical implants and dispensers designed to monitor [/SIZE][SIZE=14.6667px]health[/SIZE][SIZE=14.6667px] and to administer [/SIZE][SIZE=14.6667px]personalized medicines [/SIZE][SIZE=14.6667px]and other chemicals to treat illnesses and provide first aid. A [/SIZE][SIZE=14.6667px]high performance variant of the implants has additional functionality, able to dispense performance enhancing stimulants. The first series of implants were personally developed by Panacea’s first CEO, Suravi Teigra[/SIZE][SIZE=14.6667px], during the early days of the biotech firm. Having personally lived through the horrors brought on by the Gulag Plague, she looked to ensure the populace of the Kiribian Systems Union would have better protection in the event a similar epidemic befell the galaxy. More recently, the newest iteration of Allegro has become a popular item with the rise of bioterrorism.
The kit consists of small [/SIZE][SIZE=14.6667px]molecular converters[/SIZE][SIZE=14.6667px] tied to a host’s [/SIZE][SIZE=14.6667px]endocrine system[/SIZE][SIZE=14.6667px] or its equivalent in non-human species. The converters siphon a small portion of hormones produced by glands to use as fuel for producing compounds. Rice-sized sensors are dispersed throughout the body to monitor the host’s physical and mental state, using a combination of electromagnetic scans and physical intake of microscopic tissue samples. A memristor-based processing unit, based [/SIZE][SIZE=14.6667px]inside[/SIZE][SIZE=14.6667px] the primary converter module, analyzes readouts from the sensors for symptoms to determine if any medication needs to be administered. In the cases where it is required, the processing unit gives instructions to the molecular converters on what compounds to produce. The whole system is powered by capacitors that are charged wirelessly without risk of radiation to the host. Allegro can operate between 12-72 hours per charge, all dependent on the state of its host. [/SIZE]
[SIZE=14.6667px]To optimize the effectiveness of the treatments, the exact dosage and molecular makeup of the medications produced are personally tailored to the unique biochemistry of the host, based [/SIZE][SIZE=14.6667px]off of[/SIZE][SIZE=14.6667px] the host’s specific genetic makeup. The strategy of administering personally tailored drugs gives Allegro an edge over other medical implants that take a blanket approach of dispensing [/SIZE][SIZE=14.6667px]bacta[/SIZE][SIZE=14.6667px]/[/SIZE][SIZE=14.6667px]kolto[/SIZE][SIZE=14.6667px] and premade concoctions which may not be the ideal solution for treatment.[/SIZE]
[SIZE=14.6667px]The processing unit has wireless uplink/downlink abilities, able to communicate with Panacea data centers to improve the speed and accuracy of diagnoses with a boost from cloud computing. Allegro can also interface with approved personal devices and systems used by hospitals and paramedic units to provide readouts and reports for analysis. For security purposes, each Allegro kit comes pre-installed with Mithril security software. Mithril is also used as an anti-tampering measure to prevent users from altering the systems to eliminate the risk of dangerous unprescribed actions like the production of hallucinogens. [/SIZE]
[SIZE=14.6667px]A standalone dispenser is also offered for instances where the implant option is not wanted or desired. It has an integrated [/SIZE][SIZE=14.6667px]bioscanner, and uses canisters of synthetic chemicals for the production of medication. It uses a standard power cell for operation. The dispenser is equally as effective as the implants in providing medication, but the deployment process is much slower in comparison to the integrated implants which can respond immediately to changes by [/SIZE][SIZE=14.6667px]intravenous delivery. There is no dispenser equivalent for the performance implant. [/SIZE]
[SIZE=14.6667px]The following is a list of scenarios (on a human) to give users an idea of the strategies Allegro takes to deal with diseases and injury. This is by no means an exhaustive list, or there would be an encyclopedia’s worth of treatments to cover.[/SIZE]
[SIZE=14.6667px]Infections (Bacteria, Virus, Fungus): To counter bacteria, [/SIZE][SIZE=14.6667px]bacteriophages[/SIZE][SIZE=14.6667px] would be produced that would target the foreign bacteria for destruction. In the instance of viruses or fungus, units of [/SIZE][SIZE=14.6667px]macromolecules[/SIZE][SIZE=14.6667px] are created to attract viruses and fungi particles away from cells, then absorb them to prevent them from spreading. Once absorbed they would be broken down to render them harmless. Infected cells would be treated in a similar manner. [/SIZE]
[SIZE=14.6667px]Bleeding/Shock: [/SIZE][SIZE=14.6667px]Hemostatic[/SIZE][SIZE=14.6667px] agents would be administered to stop bleeding. The compound [/SIZE][SIZE=14.6667px]ATP[/SIZE][SIZE=14.6667px] may be synthesized to compensate for the loss of [/SIZE][SIZE=14.6667px]hemoglobins[/SIZE][SIZE=14.6667px], emulating [/SIZE][SIZE=14.6667px]anaerobic respiration[/SIZE][SIZE=14.6667px]. [/SIZE]
[SIZE=14.6667px]Toxins (Poison/Venom, Drug Overdose, [/SIZE][SIZE=14.6667px]CBRN[/SIZE][SIZE=14.6667px], etc): Macromolecules are released to absorb the toxins to prevent them being stored within the tissue, In the case of allergic reactions, [/SIZE][SIZE=14.6667px]epinephrine[/SIZE][SIZE=14.6667px] may be produced to counter [/SIZE][SIZE=14.6667px]anaphylactic shock[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]Chemical Imbalances: Compounds are synthesized to compensate for deficiencies like a lack of insulin, testosterone, dopamine, etc. [/SIZE]
[SIZE=14.6667px]Resuscitation: [/SIZE][SIZE=14.6667px]Antiarrhythmic agents[/SIZE][SIZE=14.6667px] will be produced for [/SIZE][SIZE=14.6667px]chemical defibrillation[/SIZE][SIZE=14.6667px] of the heart. [/SIZE][SIZE=14.6667px]Cordrozine[/SIZE][SIZE=14.6667px] may be produced to stave off multiple organ failures. [/SIZE]
[SIZE=14.6667px]Mutations (After Death): The “nuclear” option is employed, where viruses are produced that target foreign agents and infected cells of the host alike to promote rapid decomposition. [/SIZE]
[SIZE=14.6667px]Stimulants (Performance Variant Only): [/SIZE][SIZE=14.6667px]Eugeroics[/SIZE][SIZE=14.6667px] like [/SIZE][SIZE=14.6667px]modafinil[/SIZE][SIZE=14.6667px] are produced to maintain alertness and enhance cognition. Artificial oxygen carriers like [/SIZE][SIZE=14.6667px]fluorocarbons[/SIZE][SIZE=14.6667px] are created to increase oxygen intake. [/SIZE]
[SIZE=14.6667px]Primary Sources[/SIZE]
[SIZE=14.6667px]Real World Inspiration [/SIZE]
[SIZE=14.6667px]Mayo Clinic Staff, “Consumer Health Personalized Medicine and Pharmacogenomics,” [/SIZE][SIZE=14.6667px]Mayoclinic[/SIZE][SIZE=14.6667px] June 5, 2015, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.mayoclinic.org/healthy-lifestyle/consumer-health/in-depth/personalized-medicine/art-20044300[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“WebMD,” accessed January 28, 2017, [/SIZE][SIZE=14.6667px]https://www.wikiwand.com/en/WebMD[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“FDA Approves Computer Chip for Humans,” [/SIZE][SIZE=14.6667px]Health care[/SIZE][SIZE=14.6667px], October 13, 2004, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.nbcnews.com/id/6237364/ns/health-health_care/t/fda-approves-computer-chip-humans/[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“Chip Implant No Bigger Than a Grain of Rice Is Powered by Wireless Breakthrough,” May 19, 2014, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.theverge.com/2014/5/19/5730132/wireless-power-implants-ada-poon[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“Brain Monitor the Size of a Grain of Rice Dissolves After Use,” January 18, 2016, accessed January 28, 2017, [/SIZE][SIZE=14.6667px]https://www.newscientist.com/article/dn28790-brain-monitor-the-size-of-a-grain-of-rice-dissolves-after-use/[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“Wireless ‘neural dust’ Could Monitor Your Brain,” accessed January 28, 2017, http://www.popsci.com/tiny-wireless-implants-could-monitor-your-brain. [/SIZE]
[SIZE=14.6667px]“IBM Creates A Molecule That Could Destroy All Viruses,” accessed January 28, 2017, [/SIZE][SIZE=14.6667px]http://www.popsci.com/macromolecule-developed-by-ibm-could-fight-multiple-viruses-at-once[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]“A Brief History of How Fighter Pilots Battle Fatigue, from 1932 to the Present,” accessed January 28, 2017, [/SIZE][SIZE=14.6667px]https://vanwinkles.com/how-fighter-pilots-battle-fatigue[/SIZE][SIZE=14.6667px].[/SIZE]
[SIZE=14.6667px]YO Schumacher et al., “Artificial Oxygen Carriers--the New Doping Threat in Endurance Sport?,” International journal of sports medicine. 22, no. 8 (November 24, 2001), accessed January 28, 2017, https://www.ncbi.nlm.nih.gov/pubmed/11719891. [/SIZE]