Processing system for processing specimens using acoustic energy

What is claimed is: 1. A method, comprising: performing a first histological staining process on a first tumor sample that has been removed from a subject, the first histological staining process comprising contacting the first tumor sample with a fluid; continuously monitoring compositional changes to the first tumor sample caused by the first histological staining process while performing the first histological staining process on the first tumor sample, the compositional changes comprising diffusion of the fluid into the first tumor sample, wherein the continuous monitoring comprises: transmitting acoustic waves through at least a portion of the first tumor sample; determining a first time of flight of the acoustic waves that travel through the portion of the first tumor sample; determining at least a second time of flight of the acoustic waves that travel through the portion of the first tumor sample; and comparing the first time of flight to the second time of flight, and determining a change in a time of flight of the acoustic waves caused by diffusion of the fluid into the first tumor sample, storing information about a change in a speed of the acoustic waves caused by diffusion of the fluid into the first tumor sample; and performing a second histological staining process on a second tumor sample based on the stored information comprising: (i) comparing a measured change in speed of acoustic waves through at least a portion of the second tumor sample to the stored information; and (ii) controlling the second histological staining process based on the comparison between the measured change in speed of the acoustic waves through the at least the portion of the second tumor sample and the stored information, and wherein the first and second tumor samples have a thickness of not more than 5mm. 2. The method of claim 1 , further comprising: generating a staining protocol based on the stored information. 3. The method of claim 1 , further comprising: adjusting the second histological staining process on the second based on at least one of a density status and a fixation status. 4. The method of claim 1 , wherein the transmitting of the acoustic waves through the at least the portion of the first tumor sample comprises transmitting the acoustic waves across a thickness of the tumor sample. 5. The method of claim 1 , further comprising: reflecting at least some of the acoustic waves from the first tumor sample; receiving the reflected acoustic waves; and evaluating the acoustic waves that enter the first tumor sample and the reflected acoustic waves to evaluate the change in speed. 6. The method of claim 1 , further comprising determining a phase shift between an outputted signal for generating the transmitted acoustic waves and a received signal of the acoustic waves that have traveled through the first tumor sample. 7. The method of claim 6 , further comprising: comparing a plurality of waves with different wavelengths transmitted through the first tumor sample and corresponding phase shifts of the waves. 8. The method of claim 1 , wherein either the first histological staining process or the second histological staining process comprises a fixation process. 9. The method of claim 8 , wherein the second histological staining process comprises a fixation process and wherein the fixation of the second tumor sample is stopped based on the comparison between the measured change in speed of the acoustic waves through the at least the portion of the second tumor sample and the stored information. 10. The method of claim 1 , wherein the information includes a characteristic sound speed for the first tumor sample. 11. The method of claim 1 , wherein the information is representative of sound speed characteristics of a plurality of different tumor samples. 12. The method of claim 1 , further comprising: analyzing data obtained from the comparison of the first time of flight to the second time of flight using at least one of a compensation algorithm and a smoother algorithm. 13. A method for histochemically staining a tumor sample having a thickness of not more than 5 mm taken from a subject, comprising: performing a fixation process on the biological sample to fix at least a portion of tumor sample to a degree suitable for diagnosis based on immunohistochemical or in situ hybridization analysis; continuously evaluating a change in the speed of sound traveling through the tumor sample using acoustic waves that travel through the biological sample after performing at least a portion of the fixation process by: transmitting ultrasound energy through the tumor sample using an ultrasound transmitter and an ultrasound receiver; sending signals from the ultrasound receiver to a computing device; and calculating a time of flight on the computing device by evaluating a phase shift between the acoustic waves before the acoustic waves enter the tumor sample and the acoustic waves that have exited the tumor sample; and adjusting the fixation process based on the continuous evaluation of the change in the speed of sound, wherein adjusting the fixation process includes stopping the fixation process by at least one of removing the tumor sample from a bath of fixative and deactivating the fixative. 14. The method of claim 1 , wherein the fluid is formalin. 15. The method of claim 1 , wherein the first tumor sample is disposed in a biopsy cassette. 16. The method of claim 13 , wherein the fixative solution is formalin. 17. The method of claim 13 , wherein said tumor sample is disposed in a biopsy cassette during the fixation process. 18. The method of claim 13 , wherein the evaluation of the phase shift enables a resolution of the measured time of flight of 1 ns or less. 19. A method, comprising: performing a histological staining process on a first tumor sample, the histological staining process comprising contacting the first tumor sample with a fluid; continuously monitoring compositional changes to the first tumor sample caused by the histological staining process while performing the histological staining process on the first tumor sample, the compositional changes comprising diffusion of the fluid into the first tumor sample, wherein the continuous monitoring comprises: transmitting the acoustic waves through at least a portion of the first tumor sample; determining a first time of flight of the acoustic waves that travel through the portion of the first tumor sample; determining at least a second time of flight of the acoustic waves that travel through the portion of the first tumor sample; and comparing the first time of flight to the second time of flight, and determining a change in a time of flight of the acoustic waves caused by diffusion of the fluid into the first tumor sample, storing fixation information for at least two different types of tumor samples, the fixation information including at least one sound speed characteristic related to a respective one of the at least two types of tumor samples; selecting a stored sound speed characteristic based on a composition of a second tumor sample; and controlling a fixation process for fixing the second tumor sample based on the selected sound speed characteristic; and wherein the different types of tumor samples have a thickness of not more than 5 mm. 20. The method of claim 19 , further comprising generating a staining protocol based on the stored information. 21. The method of claim 19 , wherein the tr