DE102009009289A1 - Endoscopic capsule for treating patient's stomach illness caused by helicobacter pylori, has sensor comprising electrode made of precious metal and another electrode made of silver, where potential is measured between two electrodes - Google Patents

Abstract

The capsule has a housing in which a sensor device for detecting medical relevant data and a therapy device for application of a therapy agent are arranged. A sensor is arranged at an outer surface of the housing. The sensor comprises an electrode made of precious metal e.g. platinum or gold, that is struck by hydrochloric acid, and another electrode made of silver. A potential is measured between the two electrodes. A magnet element is arranged in the housing navigation by a magnetic field produced by an external magnetic system.

Description

The The invention relates to an endoscopy capsule with a biocompatible Housing in which at least one sensor device for detecting medically relevant data and / or at least one therapy device are arranged for administration of a therapeutic agent.

A common cause of complaints of the upper gastrointestinal tract is a bacterial infestation of its organs. For example, a Infestation with Helicobacter pylori for a whole range of Stomach diseases made responsible, with a reinforced Secretion of gastric acid go along. These include, for example Type B gastritis, in about 75% of gastric ulcers and almost all twelve-finger gut ulcers. The investigation the hollow organs of the gastrointestinal tract to colonize with bacteria, in particular on colonization with Helicobacter pylori is therefore a important component of the diagnosis of gastric diseases.

For example, Helicobacter pylori is detected via a breath test in which a patient is administered a C-13 labeled urea. The C-13 labeled CO ₂ resulting from the cleavage of urea (CO (NH ₂ ) ₂ ) into ammonia (NH ₃ ) and carbon dioxide (CO ₂ ) is detected in the exhaled air. Other methods of detecting Helicobacter pylori are indicative of typical blood levels, such as pepsinogen or gastrin. However, such methods are expensive and not very reliable. Another test for Helicobacter pylori is the detection of Helicobacter pylori antigen in stool.

A Another way to examine the stomach on one Colonization with Helicobacter pylori is the so-called gastroscopy ( "Gastroscopy"). During such a The gastroenterologist takes a biopsy of the gastric mucosa, at a later date or at a later date To study infection with Helicobacter pylori.

A Alternative to a performed by means of a flexible endoscope Gastroscopy consists in the use of a so-called endoscopy capsule. Such an endoscopy capsule, also called a capsule endoscope or Endocapsule is called passive endocapsule or as navigable endocapsule executed. A passive endocapsule moves due to peristalsis through the patient's intestine.

A navigable endocapsule is for example from the DE 101 42 253 C1 as well as from the corresponding US 2003/0060702 A1 known. and is referred to there as "endorobot" or "endo-robot". The from the DE 101 42 253 C1 Known endorobots may be navigated in a hollow organ (eg, gastrointestinal tract) of a patient by means of a magnetic field generated by an external (ie, outside the patient) magnet system (coil system). An integrated system for position control, which includes a position measurement of the endo-robot and an automatic control of the magnetic field or the coil currents, can automatically detect and compensate for changes in the position of the endorobot in the hollow organ of the patient. Furthermore, the endorobot can be specifically navigated to desired regions of the hollow organ. This type of capsule endoscopy is therefore also referred to as MGCE (Magnetically Guided Capsule Endoscopy - magnetically guided capsule endoscopy).

task The present invention is to provide an endoscopy capsule, the one a patient only slightly stressful examination of the tissue the gastric mucosa on Helicobacter pylori allows.

The The object is achieved by an endoscopy capsule solved according to claim 1. advantageous Embodiments of he inventive endoscopic capsule are each the subject of further claims.

The Endoscopy capsule according to the invention comprises biocompatible housing in which at least one sensor device for recording medically relevant data and / or at least one therapy device are arranged for administration of a therapeutic agent. According to the invention on the outer surface of the housing a sensor arranged, wherein the sensor is a first electrode made of a precious metal, which is not attackable by hydrochloric acid, and a second one Includes silver electrode, and wherein between the first electrode and the second electrode, a potential is measurable.

When Precious metals that are not attacked by hydrochloric acid, Platinum (Pt) and Gold (Au) are considered.

The second electrode, in the endoscopy capsule according to claim 1 of Silver (Ag) is etched by hydrochloric acid (HCl) and thus has a coating on its surface made of silver chloride (AgCl).

After the patient has swallowed the endoscopy capsule according to the invention, ammonia (NH ₃ ) present in the gastric acid can be detected by the sensor. Thus, an infection of the tissue (gastric mucosa) with Helicobacter pylori can be detected in a patient-friendly manner without biopsy by the detection of ammonia (NH ₃ ). This takes place without biopsy and is thus significantly less stressful for the patient. A biopsy must be made only when there is a suspicion of gastric mucosal involvement with Helicobacter pylori

ammonia is caused by the cleavage of the Helicobacter pylori bacteria Urea generated by urease to protect against the acidic environment of the Gastrointestinal tract, especially the high hydrochloric acid concentration in the stomach, protect.

Since ammonia under normal circumstances in a hollow organ of the gastrointestinal tract, such as the stomach, due to the following neutralization reaction NH ₃ + H ⁺ → NH ₄ ⁺ is not present or only in very low concentration, its proof suffices as very strong indication for the presence of Helicobacter pylori. The proton is part of stomach acid.

The chemical reaction corresponding to the detection of Helicobacter pylori is: AgCl + 2NH ₃ → [Ag (NH ₃ ) ₂ ] ⁺ + Cl

The salt AgCl is split by ammonia into the silver-diamine complex [Ag (NH ₃ ) ₂ ] ⁺ and in chlorine Cl ^- . [Ag (NH ₃ ) ₂ ] ⁺ is outstandingly soluble in water as a cation and is absorbed by the buffered nutrient solution. Since, according to the invention, the potential, that is to say without current, is measured between the first electrode and the second electrode, hardly any ion migration takes place in the buffered nutrient solution.

The measured between the first electrode and the second electrode Potential is logged in a data memory, displayed and - if desired - by means of a data transmission device transmitted to an evaluation. By one (automated) Comparison of the measured value with given values may be a possible infestation the tissue sample taken from the patient with Helicobacter pylori be displayed reliably.

To Ending the examination will be at the endoscopy capsule, and so that both electrodes, a disinfection and then a rinse with rinse solution (hydrochloric acid or a mixture of hydrochloric acid and urea). By a rinse of the second electrode with hydrochloric acid it follows at the second electrode a regeneration of the AgCl surface. The damage caused by ammonia in the AgCl layer of the second electrode are thereby eliminated again. The inventive Endoscopy capsule can thus after a possibly necessary recalibration of the sensor used again for the detection of Helicobacter pylori become. A calibration of the sensor can, for example, by a dosage of synthetic ammonia done.

The Endoscopy capsule according to the invention allows a the patient only slightly onerous examination of the gastric mucosa on Helicobacter pylori, being present only on suspicion of presence be taken from Helicobacter pylori tissue samples. The removal tissue samples can be taken from the endoscopy capsule, if it has a biopsy device.

in the According to the invention, the endoscopy capsule can be used as a passive endoscopy capsule, be executed or as navigable endoscopy capsule. A passive endoscopy capsule moves due to peristalsis the intestine of the patient, whereas in a navigable endoscopy capsule in the housing at least one magnetic element for navigation by means of a magnetic field which can be generated by an external magnet system is arranged.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10142253 C1 [0006, 0006]
• US 2003/0060702 A1 [0006]

Claims (5)

Endoscopy capsule with a biocompatible housing, in which at least one sensor device for detecting medically relevant data and / or at least one therapy device for administering a therapeutic agent are arranged, characterized in that on the outer surface of the housing, a sensor is arranged, wherein the sensor comprises a first electrode a noble metal which is not vulnerable to hydrochloric acid and a second electrode made of silver, and wherein a potential is measurable between the first electrode and the second electrode. The endoscopy capsule of claim 1, wherein the first Electrode made of platinum or gold. An endoscopy capsule according to claim 1, wherein in the housing at least one magnetic element for navigation by means of one of external magnetic system can be generated magnetic field. An endoscopy capsule according to claim 1, wherein in the housing at least one data store is arranged. An endoscopy capsule according to claim 1, wherein in the housing arranged at least one data transmission device is.