Method for providing an indication as to the amount of milk remaining in a breast during lactation

The invention claimed is: 1. A method of providing an indication as to the amount of milk remaining in a breast during lactation based on a determined fat content of milk that has been expressed from said breast, wherein the method of determining said fat content comprises measuring, via a sensor, an optical characteristic of milk during expression and by comparing via a control unit, said measured optical characteristic with data representing a corresponding optical characteristic of a sample of milk having a known fat content to determine the fat content of said expressed milk, determining, via said control unit, in real time during lactation an indication of the amount of milk remaining in the breast from the determined fat content of said expressed milk, and supplying a signal representative of the determined fat content of the expressed milk to said control unit, said control unit being operable to automatically control pumping in dependence on said signal. 2. A method according to claim 1 , wherein the method includes the step of applying an algorithm to determine the fat content of expressed milk based on said comparison of the measured optical characteristic and said corresponding optical characteristic of a sample of milk having a known fat content to determine the fat content of said expressed milk. 3. A method according to claim 1 wherein the step of measuring an optical characteristic of the expressed milk comprises the step of illuminating a portion of milk using a light source and using an RGB sensor to detect the color of the expressed milk and subsequently comparing said measured color with the color of a sample of milk having a known fat content to determine the fat content of said expressed milk which is indicative of the amount of milk remaining in the breast. 4. A method according to claim 1 , wherein the step of measuring an optical characteristic of the expressed milk comprises the step of illuminating milk following expression using a light source and using said sensor to detect the amount of light that is absorbed by said expressed milk, and subsequently comparing said measured absorption with data representing the absorption of a sample of milk having a known fat content to determine the fat content of said expressed milk which is indicative of the amount of milk remaining in the breast. 5. A method according to claim 4 , wherein the step of using said sensor to detect the amount of light that is absorbed by the expressed milk comprises the step of illuminating the expressed milk with light of a predetermined wavelength and which is known to be scattered or absorbed by globules of fat contained in expressed milk, detecting the amount of light transmitted through said milk and comparing said measured amount of transmitted light with data representing the amount of light transmitted through a sample of milk having a known fat content to determine the fat content of said expressed milk which is indicative of the amount of milk remaining in the breast. 6. A method according to claim 5 , wherein the method includes the step of illuminating a portion of expressed milk with multiple light sources that emit light of different wavelengths and using multiple sensors to detect the amount of light of each wavelength that is transmitted through the expressed milk, and comparing said measured amount of transmitted light with the amount of light transmitted through a sample of milk having a known fat content to determine the fat content of said expressed milk which is indicative of the amount of milk remaining in the breast. 7. A method according to claim 1 wherein the step of measuring an optical characteristic of the expressed milk comprises the step of illuminating a portion of expressed milk using a light source and using said sensor to detect attenuation of the light by said expressed milk, and subsequently comparing said measured attenuation with data representing the attenuation of a sample of milk having a known fat content to determine the fat content of said expressed milk which is indicative of the amount of milk remaining in the breast. 8. A method according to claim 7 , comprising multiple sensors to detect light transmitted through the expressed milk and light which is scattered by said expressed milk and comparing the detected light with light received by a control detector that has not been incident on the expressed milk. 9. A method for analyzing breast milk according to claim 8 , including the step of providing a beam splitter positioned in the path of the light emitted from the light source such that a portion of the light emitted therefrom towards the expressed milk is directed towards the control detector. 10. A method according to claim 1 , comprising the step of informing the user of the determined fat content of the expressed milk or other indicia representative of the amount of milk remaining in said breast based on the determined fat content, such that the user may control pumping in dependence on said information. 11. A breast pump comprising: a detection unit configured to provide an indication as to the amount of milk remaining in a breast during lactation based on a determined fat content of milk that has been expressed from said breast, said detection unit comprising a light source and a sensor configured to detect an optical characteristic of milk as it is expressed from a breast during lactation, said detection unit being releasably attachable to the breast pump and operable to measure said optical characteristic and compare said measured optical characteristic with a corresponding optical characteristic of a sample of milk having a known fat content to determine the fat content of said expressed milk and determine in real time during lactation an indication of the amount of milk remaining in the breast from the determined fat content of said expressed milk, wherein said sensor is configured to generate a signal representative of the determined fat content of the expressed milk, and a control unit being operable to automatically control pumping of said breast pump in response to said signal generated by said sensor. 12. A breast pump according to claim 11 , wherein said breast pump comprises a breast shield for insertion of a breast into the breast pump during use, said detection unit being releasably attachable to said breast shield. 13. A breast pump according to claim 12 , wherein the breast shield has a bulge or recess therein to receive and temporarily retain or buffer a sample of milk, said detection unit being operable to measure an optical characteristic of the milk in said bulge or recess when said detection unit is attached to said breast pump.