Apparatus, device and method for capsule microscopy

What is claimed is: 1. An apparatus for obtaining data for at least one portion within at least one luminal or hollow sample, comprising: a first optical arrangement comprising an optical core configured to transceive at least one electromagnetic radiation to and from the at least one portion; a wavelength dispersive second arrangement comprising a diffraction grating which is configured to disperse the at least one electromagnetic radiation and configured to rotate about an axis that is substantially parallel to a central axis of a housing, wherein the at least one electromagnetic radiation comprises electromagnetic radiation having a plurality of different wavelengths, and wherein the diffraction grating is configured to disperse the plurality of different wavelengths along different spatial locations of the at least one portion; and the housing comprising a rigid capsule, and enclosing the first and second arrangements; an optical fiber drive shaft coupled to a rotational mechanical arrangement, and wherein the optical fiber drive shaft is coupled to the wavelength dispersive second arrangement such that rotation of the optical fiber drive shaft causes the wavelength dispersive second arrangement to rotate about an axis that is substantially parallel to a central axis of the housing. 2. The apparatus according to claim 1 , further comprising a tether arrangement connected to a proximal end of the housing. 3. The apparatus according to claim 2 , further comprising a further arrangement configured to track at least one of position, acceleration or velocity of the tether. 4. The apparatus according to claim 1 , further comprising a further arrangement configured to track at least one of position, acceleration or velocity of the apparatus. 5. The apparatus according to claim 1 , further comprising a video camera arrangement which is coupled to the housing. 6. The apparatus according to claim 1 , wherein the different spatial locations differ along a dimension that is substantially parallel to a surface of the at least one portion. 7. The apparatus according to claim 2 , wherein the tether arrangement contains the optical fiber drive shaft coupled to the rotational mechanical arrangement. 8. The apparatus according to claim 1 , further comprising an imaging arrangement which generates an image of the at least one portion when the wavelength dispersive second arrangement is rotated and causes the at least one electromagnetic radiation to radiate with a particular radiation pattern on the at least one portion. 9. The apparatus according to claim 1 , further comprising: a light source arrangement optically coupled to the wavelength dispersive second arrangement via the first optical arrangement, wherein the light source arrangement is configured to emit the at least one electromagnetic radiation toward the wavelength dispersive second arrangement; a battery arrangement which provides energy to the light source arrangement; a radio frequency transmitter arrangement coupled to the battery arrangement; and a data storage arrangement coupled to the battery arrangement and the radio frequency transmitter arrangement. 10. The apparatus according to claim 9 , further comprising: a motor arrangement coupled to the battery arrangement and the wavelength dispersive second arrangement, wherein the motor arrangement is configured to cause the wavelength dispersive second arrangement to rotate about an axis that is substantially parallel to a central axis of the housing. 11. The apparatus according to claim 10 , further comprising: a detector arrangement that is optically coupled to the wavelength dispersive second arrangement via the first optical arrangement, wherein the detector arrangement is configured electromagnetic radiation returned from the at least one portion; and a processor arrangement electrically coupled to the battery arrangement, the motor arrangement, the radio frequency transmitter arrangement, the data storage arrangement, and the detector arrangement, wherein the processor arrangement is programmed to: cause the motor arrangement to rotate the wavelength dispersive second arrangement while the light source arrangement emits the at least one electromagnetic radiation toward the wavelength dispersive second arrangement; cause the detector arrangement to generate image data based on the electromagnetic radiation returned from the at least one portion; cause the image data to be recorded using the data storage arrangement; and cause data representative of the image data to be transmitted using the radio frequency transmitter arrangement. 12. An apparatus for obtaining data for at least one portion within at least one luminal or hollow sample, comprising: an optical first arrangement configured to transceive at least one electromagnetic radiation to and from the at least one portion wherein the at least one electromagnetic radiation comprises electromagnetic radiation having a plurality of different wavelengths, a diffractive optical element comprising a diffraction grating configured to rotate about an axis that is substantially parallel to a central axis of a housing, wherein the diffraction grating is configured to disperse the plurality of different wavelengths along different spatial locations of the at least one portion; a second arrangement which is configured to forward at least one return radiation from the at least one luminal or hollow sample to an optical microscopy system, wherein at least one portion of an outer periphery of the apparatus has a shape of a pill; and a third arrangement which includes at least one of (i) a battery arrangement which provides energy to the optical microscopy system, (ii) a radio frequency transmitter arrangement, (ii) a light source arrangement, or (iv) a data storage arrangement; an optical fiber drive shaft coupled to a rotational mechanical arrangement, wherein the optical fiber drive shaft is coupled to the wavelength dispersive second arrangement such that rotation of the optical fiber drive shaft causes the wavelength dispersive second arrangement to rotate about an axis that is substantially parallel to a central axis of the housing. 13. The apparatus according to claim 12 , further comprising a propulsion arrangement which moves the apparatus within the at least one luminal or hollow sample. 14. An apparatus for obtaining data for at least one portion within at least one luminal or hollow sample, comprising: a first optical arrangement configured to transceive at least one electromagnetic radiation to and from the at least one portion; a wavelength dispersive second arrangement comprising a diffraction grating which is configured to disperse the at least one electromagnetic radiation and configured to rotate about an axis that is substantially parallel to a central axis of a housing, wherein the at least one electromagnetic radiation comprises electromagnetic radiation having a plurality of different wavelengths, wherein the diffraction grating is configured to disperse the plurality of different wavelengths along different spatial locations of the at least one portion: wherein the housing includes a rigid capsule enclosing the first and second arrangements; a tether arrangement connected to a proximal end of the housing and containing an optical fiber drive shaft coupled to a rotational mechanical arrangement, wherein the optical fiber drive shaft is coupled to the wavelength dispersive second arrangement such that rotation of the optical fiber drive shaft causes the wavelength dispersive second arrangement to rotate about an axis