Laser Micromachining of Bone as a Tool for Studying Bone Marrow Biology.

Abstract

The bone marrow (BM) has traditionally been a difficult tissue to access because it is embedded deep within the bone matrix. It is home to the hematopoietic stem cells (HSCs) that give rise to all blood cells in the body. It is also the site of origin for malignant blood cells such as leukemia and multiple myeloma, as well as a frequent site of metastasis for many solid tumors including prostate and breast cancer. The following chapter describes how laser micromachining of bone can be used to improve both optical and physical access to the BM. For example, laser thinning of the overlying bone can improve optical access, enabling deeper imaging into the BM as well as enhancing optical resolution by reducing scattering and aberration. Laser micromachining can also be used to provide physical access into the BM by creating access ports for micropipette insertion and delivery of cells to precise locations in the BM, as well as for the extraction of BM cells and interstitial fluid, all under image guidance. This chapter provides a detailed protocol for installing a laser-micromachining capability for users with an existing multiphoton microscope. Additionally, we briefly outline how such a system improves the optical resolution during imaging as well as its potential useto study injury response.