Pacemakers

• Pacemakers (Global Market)
• Medtronic pacemakers

Chronicle

2024

Russia has created an "eternal" power source for cardioimplants

On April 23, 2024, specialists from the Fiztech School of Nature-Like, Plasma and Nuclear Technologies named after I.V. Kurchatov MIPT announced the development of an enzyme biofuel element for implantable medical devices. This product can become an "eternal" power source for devices such as cardioimplants.

The created element converts the chemical energy of organic substances into electrical energy through an electrochemical reaction. The article consists of electrolyte, anode and cathode. The principle of operation is to oxidize the fuel at the anode with the release of electrons and protons. The protons then penetrate the electrolyte solution to the cathode and the electrons pass through an external circuit to which a load is applied. The device operates due to glucose oxidation.

source = MIPT

The new power supply does not require replacement throughout the life of the pacemaker. Conventional lithium-ion batteries need to be changed every 5-10 years. The operation to install the created device does not involve extensive surgery: the procedure is carried out using a stent - a special frame that is placed in the lumen of the coronary vessels of the heart or bile duct and provides expansion of the area. Installation occurs by angioplasty, that is, through a puncture in a vein or artery. Conventional surgery when performing pacemaker replacement lasts about an hour and involves a small incision followed by sutures.

The enzyme biofuel element is suitable for patients who use active implants, as well as people with diabetes mellitus (to power biosensors and other sensors). The use of the novelty will eliminate operational medical interventions to replace the battery, which can be traumatic for patients and dangerous for elderly people.^[1]

Organic films for charging pacemakers have been developed in Russia

On February 29, 2024, Russian researchers from the Ural Federal University (UrFU) announced the development of biocompatible crystal films. They are claimed to have high piezoelectric properties - they generate an electric current under mechanical or thermal action. The technology could come in handy when creating elements for invasive medical devices such as pacemakers.

The project was implemented with the participation of specialists from the University of Aveiro. Diphenylalanine films have been created that have high piezoelectric properties comparable to inorganic analogs. Electricity can be generated by mechanical or thermal action. It is emphasized that diphenylalanine is a form of phenylalanine, one of the 20 amino acids that make up proteins and which plays an important role in biological processes. This substance is part of the human body, and therefore the materials from it are highly compatible with living tissues.

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In the case of pacemakers, new films can act as an energy generator. At rest, the heart beats 50-70 times per minute, and with stress or physical exertion, the heart rate increases two to three times. When the heart moves or beats, films of a new type will begin to generate energy, which will then accumulate in pacemaker batteries. Such products can solve the problem of replacing dead batteries, as well as reduce the number of surgical interventions.

The films were synthesized using a new method - crystallization from the amorphous phase under the influence of water vapor. The conventional method of producing diphenylalanine involves crystallization in aqueous solution, which leads to the formation of structures with poorly controlled morphology. The new technology makes it possible to obtain films with a flat surface on which electrodes can be applied.

We were able to achieve films with flat morphology. We also note that our method is unique and has not previously been proposed by other scientific groups, "says Denis Alikin, head of the laboratory of functional nanomaterials and nanodevices at the Research Institute of Physics and Applied Mathematics at UrFU.[2]

2023

Wireless charging for subcutaneous implants developed

In mid-November 2023, Chinese researchers at Lanzhou University reported the development of a wireless charger for subcutaneous implants, such as pacemakers. This product has a biodegradable design, and therefore does not require removal from the body after completion of operation. Read more here.

Patients began to be implanted with the world's first pacemakers with MRI sensors

On August 29, 2023, the private medical company Biotronik announced the world's first operation to implant a next-generation pacemaker Amvia Edge equipped with an MRI sensor. Read more here.

Pacemakers have entered the market, operating for a record 13 years without stopping

On May 18, 2023, the company MicroPort CRM , headquartered in France , announced the launch of Alizea and Celea pacemakers with a record length of work. More. here

Medtronic releases MRI system for patients with pacemakers

On April 4, 2023, Medtronic announced the MRI Care Pathway complex, a specialized system for magnetic resonance imaging (MRI) in patients with implanted cardiac devices. Read more here.

2022

A pacemaker has been developed that works without batteries

In early November 2022, researchers at the University of Arizona developed a pacemaker that works without batteries, a device that uses optogenetic stimulation of cardiomyocytes to achieve a heart rate. Read more here.

Abbott releases electrodeless pacemaker

In early April 2022 Abbott , he released the first electrodeless pacemaker Aveir VR in his range. The device is designed to accelerate a slow heart rate, and according to information the company, Aveir VR has a longer battery life, a pre-mapping system and the ability to easily remove if necessary. More. here

2021

Boston Scientific recalls defective pacemakers that have malfunctions

In early August 2021, Boston Scientific recalled Ingenio pacemakers, including the Advantio DR EL, Ingenio DR EL and Vitalio DR EL models, and pacemakers for resynchronization therapy due to malfunctions. Due to the defect, the devices go into safe mode designed for backup without warning, the company said. In this case, the device cannot be reprogrammed and must be replaced. Read more here.

Abbott recalls defective pacemakers causing short circuit

In mid-May 2021, Abbott announced the recall of some pacemakers that are susceptible to short circuit due to the possibility of moisture entering the device. Read more here.

2019

Medtronic reported marriage in pacemakers, which are also implanted in Russia

In mid-September 2019, Medtronic reported defective pacemakers that are implanted in Russia and elsewhere in the world. It turned out that by August, the company had received 52 complaints from doctors who had problems installing Micra ICDs. The pacemaker defects forced doctors to extend the length of the implantation procedure or perform additional surgery. Read more here.

The first operations on the implantation of the Medtronic micro-pacemaker were carried out in Russia

On March 27, 2019, information appeared that Novosibirsk doctors were the first in Russia to begin testing the compact pacemaker Medtronic Micra manufactured by the American company Medtronic, which sponsors the study. Read more here.

2018: Internet update disabled due to threat of cyber attacks on Medtronic pacemakers

On October 12, 2018, in connection with the threat of cyber attacks, the manufacturer of medical devices Medtronic Plc announced the deactivation of the Internet update for 34 thousand CareLink programmers used by doctors around the world to access patients' electrocardiostimulants.

According to the company, using a vulnerability in devices, attackers can harm patients depending on the scale and purpose of the attack, as well as the patient's condition, reports. Reuters According to a letter sent to medics in October 2018, Medtronic Plc is not aware of any instances of exploitation of the vulnerability.

The US Food and Drug Administration examined the problem and approved the manufacturer's decision to turn off the ability to update devices via the Internet. The regulator recommended that doctors continue to use CareLink, but not try to update the software via the Internet. No action is required from patients.

According to the researchers who discovered the problem, with its help an attacker can update the programmer using a malicious update, and then attack the electrocardiostimulator.

For October 2018, updates can be installed manually via USB. ^[3]

2017

Release of update that fixes vulnerability in Abbott pacemakers

At the end of August 2017 Food and Drug Administration (FDA) , it issued an official warning about the existence of vulnerabilities in the company's pacemakers (Abbott formerly St. Jude Medical). The manufacturer responded to a message from the authorities and released a software update that fixes the shortcomings of its equipment. More. here

FDA criticism for problems in Abbott pacemakers

In April 2017, the Food and Drug Administration (FDA) sent an open letter to Abbott Laboratories criticizing the company for failing to investigate and address risks with heart devices. We are talking about battery malfunctions and cybersecurity problems. Read more here.

US authorities for the first time publicly recognized the existence of vulnerabilities in Abbott pacemakers

On January 9, 2017, the Food and Drug Administration (FDA) acknowledged vulnerabilities in some cardiac implantable devices. Experts in the field of information security have repeatedly spoken about the existence of problems in this equipment that cybercriminals can use for their own purposes. Now they have been officially confirmed at the government level. Read more here.

2016

Fatal problems with pacemakers St. Jude Medical

On October 11, 2016, St. Jude Medical warned of a malfunction in its pacemakers that could be fatal to patients. This gap could be exploited by hackers. Read more here.

Uncovering vulnerabilities in St. Jude Medical pacemakers and defibrillators

In August 2016, it became known that a group of hackers found a way to hack pacemakers and defibrillators, which are produced by a large American manufacturer of medical equipment St. Jude Medical. Instead of informing the company about vulnerabilities in its products, hackers turned to Carson Block, head of investment firm Muddy Waters Capital, with an unprecedented commercial offer that will help them earn money together. Read more here. Read more here.

1960

A man with a pacemaker on batteries, USA, 1960.

1958: World's first Siemens Elema implantable pacemaker

The world's first implantable pacemaker from Siemens Elema.

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