A DNA-based nanorobot for targeting, hitchhiking, and regulating neutrophils to enhance sepsis therapy
Mi ZhouYifei LuYuanlin TangTianxu ZhangDexuan XiaoMei ZhangShunhao ZhangXiujun WangXiaoxiao CaiYunfeng Lin
0
Citation
62
Reference
10
Related Paper
Keywords:
Nanorobotics
Nanorobotics is the technology of creating machines or robots at or close to the nanodentistry which involves the maintenance of oral health by the use of nanomaterials, biotechnology and dental nanorobotics. Nanorobots induce oral analgesia, desensitise tooth, manipulate the tissue to re-align and straighten irregular set of teeth, improve the durability of teeth. Further they can also be used in preventive, restorative, curative procedures and major tooth repair. Nanorobots are complex molecular machines used for diagnosing, treating and preventing disease, relieving pain and improving human health. The first useful application in nanomedicine was to identify cancer cells and destroy them. Nanorobots can be applied in chemotherapy to combat cancer through precise chemical dosage. Nanorobots can even be used to deliver a required drug at the desired site as a controlled drug delivery. Mouthwashes and dentifrices containing nanorobots can identify and destroy pathogenic bacteria while allowing the harmless flora of the mouth to flourish in healthy ecosystem.
Nanorobotics
Cite
Citations (0)
Abstract: The nanorobotics is the technology of the creating machines or the robots at or close to a scale of the 10- 9metres[nanometre] nanorobots.Nanorobots have the capacity to precisely release drugs in the body for targeted delivery.Nanobots have great potential within the pharmaceutical industry to optimize drug delivery. Due to their small size, nanobots can enter and cross difficult-to-reach regions of the body, such as the blood-brain barrier. These nanorobot are made of nano materials and these have holds great potential in drug delivery through passive or active targeting mechanisms throughout the last few decades. One of the benefits of using nanorobots is that they can be equipped with sensors that detect changes in their environment, which means that drugs can be released exactly when and where they are needed.The field of nanorobotics has witnessed considerable advancements, capturing the attention of pharmaceutical researchers and drug delivery scientists. Nanorobots, constructed from nanomaterials, play a vital role in administering drugs with precision, enhancing efficacy, and minimizing the risk of unwanted side effects
Nanorobotics
Cite
Citations (0)
Medical nanorobots and nanobots are at the forefront of therapy and diagnostics, potentially improving human health by enabling previously inaccessible treatments. This review explores critical issues concerning the design, components, signaling, structure, and roles of nanorobots and nanobots while elucidating the distinctions between microrobots and nanorobots or microrobotics and nanorobotics as well. By complementing traditional medical procedures, nanorobotic technology offers a rapid, safe, and potentially beneficial pathway toward early clinical applications. It finds numerous applications in both current and future pharmacological and medical advancements. The current and future applications of various nanorobots, such as DNA origami nanorobots, nucleic acid robots, microbivore nanorobots, respirocyte nanorobots, and orthodontic nanorobots, are briefly discussed. In the future, nanobots will likely be prominently featured in hospitals and pharmacies for individuals or specialized groups with specific needs. Continuous innovation and improvement of these technologies, addressing these technical challenges, will broadly advance research in micro/nanorobotics for medical diagnosis and treatment.
Nanorobotics
Cite
Citations (0)
Nanorobotics is the technology of creating machines or robots at or close to the microscopic scale of a nanometer (10−9 m). More specifically, nanorobotics refers to the hypothetical nanotechnology engineering discipline of designing and building nanorobots; devices ranging in size from 0.1 to 10 μm and constructed of nanoscale or molecular components. With the modern scientific capabilities, it has become possible to attempt the creation of nanorobotic devices and interface them with the macro world for control. There are countless such machines that exist in nature and there is an opportunity to build more of them by mimicking nature. When we gain access to hold the nanorobots, we will be able to treat very rapidly a number of diseases. Their first useful application was in medicine to identify and destroy cancer cells but the most interesting applications may be in dentistry. The present article aims to provide an early glimpse on the impact and future implication of nanorobotics in dentistry.
Nanorobotics
Cite
Citations (20)
Recent advances in the development of micro and nanosensors have led researchers to develop nanorobots (nanobots) that would be able to detect and deliver drugs to defective cells. These nanorobots include sensors to detect defective cells or tissues and can be easily programmed for the detection and treatment of various important diseases like cancer. Here we discuss some recent advancement of nanobots in biomedicine field with particular emphasis on targeted drug delivery, sensing of biologic targets, detoxification, and precision surgery using nanorobots, locomotion, and power supply requirements of bio-nanorobots. The future success of bio-nanorobot technology can be achieved through close collaboration between nanotechnology, robotics, and biomedical experts.
Nanorobotics
Nanosensor
Biomedicine
Cite
Citations (0)
Nanorobotics is the technology of creating machines or robots at or close to the scale of a nanometre (10-9 metres), machines Constructed at the molecular level (nanomachines) may be used to cure the human body of its various ills.Traditionally nanotechnology dealt with design, synthesis and Application of materials along with devices at the nanometer scale. The application of nanotechnology in the field of health care and drug Delivery has come under great attention in recent times.Nanomaterials have a large surface area to Volume ratio and their physicochemical properties, such as Friction and interaction with other molecules, are distinct From equivalent materials at a larger scale. The most com-Mon use of nanotechnology in medicine has been in the Areas of developing novel therapeutic and imaging modal-Ities that have the potential to outperform the current state of The art in these areas. We will focus on the application of Nanotechnology to the development of smart drug deliv-Ery vehicles for cancer therapeutic applications. The most Common examples of these nanoscale delivery vehicles include polymeric nan Particles, dendrimers, nanoshells, liposomes, nucleic acid-Based nanoparticles, magnetic nanoparticles, and virus Nanoparticles. The following four types of nanorobotic systems have been developed and studied so far (a) large size nanomanipulators with nanoscale manipulation capability; (b) proicin- and DNA- hused bionanorobotic systems;c) Magnetically guided nano robotic system and d) bacterial based Nanorobotic etc.It can be used in many other applications.
Nanorobotics
Nanobiotechnology
Targeted drug delivery
Cancer Therapy
Cite
Citations (0)
Nanomedicine is a most promising application of medicinal nanotechnology with the aid of a molar device and microscopic information of human physiology. Nanorobotics is a miniature engine intended to achieve definite functions continually with precision at nanoscale dimensions. These nanodevices will be utilized in humans to maintain health and defend against pathogens. Fluorescence is a technique that merges with biologically driven nanorobots to produce real-time imaging. Nanorobots provide and efficient carrier of the therapeutic agent coupled with targeting ligands partially accomplish the concept of a "magic bullet." This chapter emphasizes targeted drug delivery with nanorobots for a speedy recovery and to improve the efficiency of the therapeutic agent in the area of interest. In nanorobotics, enzymatic nanolithography plays a crucial role in the target delivery of therapeutic agents. Robotics can reduce the problems encountered with complex surgery expand the range of a medical practitioner.
Nanorobotics
Magic bullet
Cite
Citations (1)
Nanorobotics is emerging field of a nanotechnology having nanoscale dimensions and is predictable to work at an atomic, molecular and cellular level. Nanorobot skeleton is made up of carbon and its toolkit contains components like medicine cavity containing medicine, microcamera, payload, capacitor and swimming tail. As nanorobots have special sensors i.e. physical or chemical which detect the target molecules in the human body can be used for the diagnosis and treatment of various vital diseases i.e. cancer, diabetes, atherosclerosis, hemophilia, kidney stones, etc. Nanorobots till date are under the line of investigation, but some primary molecular models of these medically programmable machines have been tested. This review on nanorobots presents the various aspects allied i.e. introduction, history, ideal characteristics, Approaches in Nanorobotics ,basis for the development, tool kit recognition and retrieval from the body, application considering diagnosis and treatment.
Nanorobotics
Payload (computing)
Cite
Citations (11)
Nanorobotics is an emerging field for designing and building small machines or robots ranging in size from 0.1–10 micrometers. They are microscopic in size; a large number of them may be required to work together to perform microscopic tasks. The field of medicine is expected to receive the largest improvement from Nanorobotics. Nanorobots have attracted a lot of attention from scientists as they can benefit humans in numerous ways. The purpose of this paper is to provide a tutorial on this emerging field.
Nanorobotics
Cite
Citations (1)
Бұл зерттеужұмысындaКaно моделітурaлы жәнеоғaн қaтыстытолықмәліметберілгенжәнеуниверситетстуденттерінебaғыттaлғaн қолдaнбaлы (кейстік)зерттеужүргізілген.АхметЯссaуи университетініңстуденттеріүшін Кaно моделіқолдaнылғaн, олaрдың жоғaры білімберусaпaсынa қоятынмaңыздытaлaптaры, яғнисaпaлық қaжеттіліктері,олaрдың мaңыздылығытурaлы жәнесaпaлық қaжеттіліктерінеқaтыстыөз университетінқaлaй бaғaлaйтындығытурaлы сұрaқтaр қойылғaн. Осы зерттеудіңмaқсaты АхметЯсaуи университетіндетуризмменеджментіжәнеқaржы бaкaлaвриaт бaғдaрлaмaлaрыныңсaпaсынa қaтыстыстуденттердіңқaжеттіліктерінaнықтaу, студенттердіңқaнaғaттaну, қaнaғaттaнбaу дәрежелерінбелгілеу,білімберусaпaсын aнықтaу мен жетілдіружолдaрын тaлдaу болыптaбылaды. Осы мaқсaтқaжетуүшін, ең aлдыменКaно сaуaлнaмaсы түзіліп,116 студенткеқолдaнылдыжәнебілімберугежәнеоның сaпaсынa қaтыстыстуденттердіңтaлaптaры мен қaжеттіліктерітоптықжұмыстaрaрқылыaнықтaлды. Екіншіден,бұл aнықтaлғaн тaлaптaр мен қaжеттіліктерКaно бaғaлaу кестесіменжіктелді.Осылaйшa, сaпa тaлaптaры төрт сaнaтқa бөлінді:болуытиіс, бір өлшемді,тaртымдыжәнебейтaрaп.Соңындa,қaнaғaттaну мен қaнaғaттaнбaудың мәндеріесептелдіжәнестуденттердіңқaнaғaттaну мен қaнaғaттaнбaу деңгейлерінжоғaрылaту мен төмендетудеосытaлaптaр мен қaжеттіліктердіңрөліaйқын aнықтaлды.Түйінсөздер:сaпa, сaпaлық қaжеттіліктер,білімберусaпaсы, Кaно моделі.
Cite
Citations (0)