Magnetic phase detection

The invention claimed is: 1. Apparatus comprising: a ventricular assist device comprising: an impeller configured to be placed inside a left ventricle of a subject; a motor unit configured to be disposed outside the body of the subject, and comprising: a motor; a driving magnet coupled to the motor and configured to be rotated by the motor; a driven magnet magnetically coupled to the driving magnet and being configured to be rotated by the driving magnet; a drive cable extending from the driven magnet and configured to impart rotational motion from the driven magnet to the impeller; a set of sensors configured to detect a magnetic phase difference between the driven magnet and the driving magnet; and a computer processor configured to receive the detected magnetic phase difference and to determine a physiological parameter of the subject, at least partially in response thereto. 2. The apparatus according to claim 1 , wherein the set of sensors comprises a first magnetometer configured to measure magnetic phase of the driven magnet, and a second magnetometer configured to measure magnetic phase of the driving magnet. 3. The apparatus according to claim 2 , wherein the second magnetometer is configured to measure the magnetic phase of the driving magnet by measuring a magnetic phase of the motor. 4. The apparatus according to claim 1 , wherein the computer processor is configured to receive a signal indicative of current consumption by the motor and is configured to determine the physiological parameter of the subject at least partially based upon a combination of the current consumption by the motor and the detected magnetic phase difference. 5. The apparatus according to claim 4 , wherein the set of sensors is additionally configured to measure a magnetic flux amplitude signal, and wherein computer processor is configured to determine the physiological parameter of the subject at least partially based upon a combination of the current consumption by the motor, the magnetic flux amplitude signal, and the detected magnetic phase difference. 6. The apparatus according to claim 1 , wherein the set of sensors is additionally configured to measure a magnetic flux amplitude signal, and wherein computer processor is configured to determine the physiological parameter of the subject at least partially based upon a combination of the magnetic flux amplitude signal and the detected magnetic phase difference. 7. The apparatus according to claim 1 , wherein the computer processor is configured to determine a pressure difference between the subject's left ventricle and an aorta of the subject at least partially in response to the magnetic phase difference between the driven magnet and the driving magnet. 8. The apparatus according to claim 1 , wherein the computer processor is configured to determine left ventricular pressure of the subject at least partially in response to the magnetic phase difference between the driven magnet and the driving magnet. 9. The apparatus according to claim 1 , wherein the computer processor is configured to determine an event in a cardiac cycle of the subject at least partially in response to the magnetic phase difference between the driven magnet and the driving magnet. 10. A method comprising: deploying an impeller of a ventricular assist device in a left ventricle of a subject, the ventricular assist device including: a motor unit disposed outside the body of the subject, and including: a motor; a driving magnet coupled to the motor and configured to be rotated by the motor; a driven magnet magnetically coupled to the driving magnet and being configured to be rotated by the driving magnet; a drive cable extending from the driven magnet and configured to impart rotational motion from the driven magnet to the impeller; detecting a magnetic phase difference between the driven magnet and the driving magnet, using a set of sensors; and using a computer processor, receiving the detected magnetic phase difference and to determine a physiological parameter of the subject, at least partially in response thereto. 11. The method according to claim 10 , wherein detecting the magnetic phase difference between the driven magnet and the driving magnet comprises using a first magnetometer configured to measure magnetic phase of the driven magnet, and a second magnetometer configured to measure magnetic phase of the driving magnet. 12. The method according to claim 11 , wherein using the second magnetometer configured to measure magnetic phase of the driving magnet comprises using the second magnetometer to measure a magnetic phase of the motor. 13. The method according to claim 10 , further comprising receiving a signal indicative of current consumption by the motor, wherein determining the physiological parameter of the subject comprises determining the physiological parameter of the subject at least partially based upon a combination of the current consumption by the motor and the detected magnetic phase difference. 14. The method according to claim 13 , further comprising detecting a magnetic flux amplitude signal, wherein determining the physiological parameter of the subject comprises determining the physiological parameter of the subject at least partially based upon a combination of the current consumption by the motor, the magnetic flux amplitude signal, and the detected magnetic phase difference. 15. The method according to claim 10 , further comprising detecting a magnetic flux amplitude signal, wherein determining the physiological parameter of the subject comprises determining the physiological parameter of the subject at least partially based upon a combination of the magnetic flux amplitude signal and the detected magnetic phase difference. 16. The method according to claim 10 , wherein determining the physiological parameter of the subject comprises determining a pressure difference between the subject's left ventricle and an aorta of the subject at least partially in response to the magnetic phase difference between the driven magnet and the driving magnet. 17. The method according to claim 10 , wherein determining the physiological parameter of the subject comprises determining left ventricular pressure of the subject at least partially in response to the magnetic phase difference between the driven magnet and the driving magnet. 18. The method according to claim 10 , wherein determining the physiological parameter of the subject comprises determining an event in a cardiac cycle of the subject at least partially in response to the magnetic phase difference between the driven magnet and the driving magnet.