Biology Reference
In-Depth Information
CHAPTER SEVEN
Automated Methods for the
Analysis of Skeletal Muscle Fiber
Size and Metabolic Type
Tatiana Y. Kostrominova
*
, David S. Reiner
†
,
{
, Richard H. Haas
}
,
Randall Ingermanson
†
, Patrick M. McDonough
†
,1
*
School of Medicine-Northwest, Indiana University, Gary, Indiana, USA
†
Vala Sciences Inc., San Diego, California, USA
{
WM&G Consulting, San Diego, California, USA
}
Departments of Neurosciences & Pediatrics, University of California San Diego, La Jolla, California, USA
1
Corresponding author: e-mail address: pmcdonough@valasciences.com
Contents
1.
Introduction
276
2. Relevance of Skeletal Muscle to Human Health
278
2.1 Hormonal control of muscle mass
278
2.2 Exercise
279
2.3 Spaceflight
279
2.4 Denervation
280
2.5 Sarcopenia and cachexia
280
2.6 Muscular dystrophies
281
2.7 Diabetes
282
3. Methods for Characterizing Muscle Fiber Subtypes
283
3.1 Historical overview
283
3.2 Fiber-typing via use of myosin subtype-specific antibodies
284
4. Skeletal Muscle Metabolism
286
4.1 Characterization of muscle metabolic enzyme activity via histochemical
staining
286
4.2 Skeletal muscle lipid content
288
5. Development of Automated Analysis of Skeletal Muscle
289
5.1 Early manual methods for quantifying CSA
290
5.2 Digital camera revolution and image-analysis programs
292
5.3 Automated analysis of skeletal muscle structure
294
6. Application of High-Content Analysis Methods to Analysis of Skeletal Muscle
296
6.1 CyteSeer
®
297
7. Future Directions for Automated Quantitative Analysis of Skeletal Muscle
306
7.1 Mitochondrial disease
307
7.2 Fiber-specific protein expression beyond myosin: Skeletal muscle protein
expression catalogued in the Human Protein Atlas
312
Search WWH ::
Custom Search