An implantable system stimulates a human or animal heart. The system contains a processor, a memory unit, an atrial stimulation unit, a ventricular stimulation unit, and a detection unit for detecting atrial tachycardia. The memory unit stores a computer-readable program that prompts the processor to: a) detect by the detection unit whether atrial tachycardia to be treated is present in the heart; b) when atrial tachycardia to be treated is present, carrying out a ventricular conditioning stimulation by way of the ventricular stimulation unit; and c) applying atrial antitachycardia pacing in the form of a stimulation pulse sequence of 2 to 20 pulses or a high-frequency burst having a frequency of up to 50 Hz and a duration of up to 60 seconds by way of the atrial stimulation unit as the ventricular conditioning stimulation is being carried out and/or thereafter.

A system for analyzing a condition of an animal, wherein the system includes at least an identification unit (2.1) which is arranged to be worn by an animal, wherein the identification unit includes a first transmitter unit (4), a movement sensor (6), and a control unit (8) which is communicatively connected with the transmitter unit and the movement sensor, wherein the system further includes a receiver unit (8) and a computer (10) which is connected with the receiver unit and wherein the system further includes positioning means for measuring a position of the identification unit, wherein the control unit is arranged for, in use, storing and/or processing electronic information of movements of the animal which have been obtained with the movement sensor. The system is further arranged to feed positions of the identification unit measured with the aid of the positioning means to the computer and/or the control unit, wherein the computer and/or the control unit is arranged to process the electronic information about detected movements and the electronic information about the measured positions in combination for analyzing the condition of the animal.

A system for analyzing a condition of an animal, wherein the system includes at least an identification unit (2.1) which is arranged to be worn by an animal, wherein the identification unit includes a first transmitter unit (4), a movement sensor (6), and a control unit (8) which is communicatively connected with the transmitter unit and the movement sensor, wherein the system further includes a receiver unit (8) and a computer (10) which is connected with the receiver unit and wherein the system further includes positioning means for measuring a position of the identification unit, wherein the control unit is arranged for, in use, storing and/or processing electronic information of movements of the animal which have been obtained with the movement sensor. The system is further arranged to feed positions of the identification unit measured with the aid of the positioning means to the computer and/or the control unit, wherein the computer and/or the control unit is arranged to process the electronic information about detected movements and the electronic information about the measured positions in combination for analyzing the condition of the animal.

The invention relates to a computer tomography apparatus for examining a body part of a large animal, comprising a computer tomography (CT) device and a platform on which the CT device is mounted. The CT device has an annular gantry and a CT table to accommodate a body part of a large animal to be examined. The gantry is immovable relative to the platform. Relative to the platform and to the gantry the CT table is horizontally movably connected to the gantry and/or the platform in such a way that the CT table can be moved into a central opening in the annular gantry. The computer tomography apparatus further comprises a positioning device which is connected to the platform and is designed to position the platform having the mounted CT device relative to a supporting surface for a large animal. The positioning device is designed to position the platform having the mounted CT device in an operational state in such a way that during a relative movement with respect to the gantry the CT table remains stationary relative to the supporting surface.

The present invention extends to methods, systems, and computer program products for remote medical analysis. Advances in mobile devices offer a way to connect animals and veterinarians in ways other than physical proximity. Using a phone's camera to take photos or and/or video and send those to a veterinarian allows greater degree of detail to be communicated in triaging or diagnosing or follow-up for an animal. Additionally, the camera could be used to conduct a video chat between an animal owner and a veterinarian allowing real-time viewing and conversation between the two parties.

The present invention extends to methods, systems, and computer program products for remote medical analysis. Advances in mobile devices offer a way to connect animals and veterinarians in ways other than physical proximity. Using a phone's camera to take photos or and/or video and send those to a veterinarian allows greater degree of detail to be communicated in triaging or diagnosing or follow-up for an animal. Additionally, the camera could be used to conduct a video chat between an animal owner and a veterinarian allowing real-time viewing and conversation between the two parties.

Systems and methods for detecting lameness in a limb of an animal are described herein. In an embodiment, a lameness detection system comprises a plurality of wearable footwear elements. Each of the footwear elements comprises a housing that is configured to fit snugly on a paw of the animal during ordinary gait. Each of the footwear elements comprise a sensor or matrix of sensors that is configured to detect and generate data representative of pressure or force exerted by the paw on a ground surface. Each footwear element additionally comprises a wireless transceiver that is configured for short-distance communication of the data captured by the sensors. The system further comprises a computing device with a wireless transceiver configured to communicate with the transceivers of the footwear elements and instructions which, when executed by the computing device, cause the computing device to analyze lameness in a limb of the animal based on data received from the sensors.

Systems and methods for detecting lameness in a limb of an animal are described herein. In an embodiment, a lameness detection system comprises a plurality of wearable footwear elements. Each of the footwear elements comprises a housing that is configured to fit snugly on a paw of the animal during ordinary gait. Each of the footwear elements comprise a sensor or matrix of sensors that is configured to detect and generate data representative of pressure or force exerted by the paw on a ground surface. Each footwear element additionally comprises a wireless transceiver that is configured for short-distance communication of the data captured by the sensors. The system further comprises a computing device with a wireless transceiver configured to communicate with the transceivers of the footwear elements and instructions which, when executed by the computing device, cause the computing device to analyze lameness in a limb of the animal based on data received from the sensors.

This disclosure describes detecting genetically distinct kinds of inherited myopathies in horses, variously referred to as Polysaccharide Storage Myopathy type 2 (PSSM2), Myofibrillar Myopathy (MFM), or idiopathic myopathy.

Described herein are methods of determining energy balance in individuals such as exercising individuals, individuals consuming a .sup.13C-enriched test composition and individuals consuming a fixed diet with a known .sup.13C. The .sup.13C pre- and post-exercise, or pre- and post-consumption of the test beverage or fixed diet indicate whether the individual is in neutral or positive energy balance, or in energy deficit. The methods are particularly useful for individuals participating in weight management programs, and individuals under the care of health care professionals.