INDEX 



789 



Waterman's — (continued) 



triple stain, 361 

 \\'a<kiu's nH>tho(l for pollen tubes, 122 

 \\'atson on ripening hematoxjdin, 284 

 Watson's acid-alum hematoxylin, 290 

 Wax embedding media, 615-G47 

 Wax sectioning technicjues, see Paraffin 

 Weatherford's method for Golgi bodies in 



calcified structures, 559 

 Webb's dextrin embedding medium, 645 

 Weber's, alcoholic accelerator, 615 



developer, 620 



fixative, 231 



silver diammiue stain, 576, 580 



in Weber's method for nervous tissue, 

 585 

 Wehrle, see Mohr, 638 

 "Weigert-Pal" techniques, 403 

 Weigert's, clearing mixtures, 628, 629 



differentiator, 520 



in, 



Alzheimer's method for nervous tis- 

 sue, 401; Aronson's method for ner- 

 vous tissues, 409; Bauer's method for 

 neuroglia, 412; Benda's method for 

 fat, 447; Bensley and Bensley's tech- 

 nique, 283; Bensley's method for 

 canaliculi in plant cells, 454; Clara's 

 method for bile capillaries, 422; 

 Dietrich's method for fat, 447; 

 Eppinger's method for bile capillaries, 

 423; Fischler's method for fat, 448- 

 Harvey's method for parietal cell 

 granules, 455; Kockel's method for 

 fibrin, 423; Kraus's method for pitui- 

 tary, 426; MacCallum et al. method 

 for pituitary, 426; Meyer's method for 

 neuroglia, 414; Mitrophanov's method 

 for myelin sheaths, 406; Parat's 

 method for mitochondria, 444; 

 Potter's method for macroglea, 414; 

 Roehl's method for calcareous 

 deposits, 385; Weigert's method for 

 myelin sheaths, 408; Weigert's 

 method for neuroglia, 415 

 fixative, 231 



in Weigerts' method for myelin sheaths, 

 408 

 " Mann-Kopsch " technique, 531 

 methods for, 



elastic fibers, 390; fibrin, 425; Gram- 

 positive bacteria in sections, 495; myelin 

 sheaths, 408; neuroglia, 415 

 primary mordant, 397, 516, 517 

 in, 



Alzheimer's method for nervous tis- 

 sue, 401; Alzheimer's method for 

 neuroglia, 412; Anderson's method for 

 myelin sheaths, 404; Anderson's 

 mordant, 515; Eppinger's method for 



Weigert's — (continued) 



primary mordant — (continued) 

 in — (continued) 



bile capillaries, 123; de Galantha's 

 method for kidney, 423; Heller- 

 Robertson's method for myelin 

 sheaths, 406; Meyer's method for 

 neuroglia, 414; Potter's method for 

 macroglea, 414; Weigert's method for 

 neuroglia, 415 

 before, acid fuclisin-phosphomolybdic 

 techniques, 359 

 stains, iron-hematoxylin, 286 

 in, 



Adam's method for acid-fast bac- 

 teria in sections, 495; Bacsich's 

 method for blood, 416; Barreto's 

 method for Negri bodies, 464 

 I'^oot's silver method for reticulum 

 592; Goldner's technique, 337 

 Highman's method for amyloid 

 452; Ladewig's technique, 365 

 Laidlaw's method for intracellular 

 "organisms," 461; Lillie's method 

 for glycogen, 452; Lillie's method 

 for reticulum fibers, 424; Lillie's 

 techniques, 337, 366, 370; Meyer's 

 method for neuroglia, 414; Mollier's 

 technique, 366; Perdran's method 

 for reticulum, 594; Potter's method 

 for macroglea, 414; Roehl's method 

 for calcareous deposits, 385; 

 Romeis's technique, 367; Schaffer'g 

 method for fat, 449; Schmorl's 

 method for elastic fibers, 389; 

 Wallart and Honette's technique, 

 339 

 lithium-hematoxylin, 408, 409, 415 

 in, 



Clark and Ward's method for ner- 

 vous tissue, 404; Fischler's method 

 for fat, 448; Kockel's method for 

 fibrin, 423; Pol's method for myelin 

 sheaths, 407 

 magenta, in, 



French's method for fat and elastic 

 tissue, 448; Hart's method for elastic 

 fibers, 388; Romeis's method for 

 pituitary, 427; Romeis's technique, 

 367; Schmorl's method for elastic 

 fibers, 389; Vastarini-Cresi's method 

 for glycogen, 453 

 picro-carmine, 304 

 picro-fuchsin, 328 



in Schmorl's method for elastic fibers, 

 389 

 "VesuveHn," 390 



in Schmorl's method for elastic fibers, 

 389 

 Weigl's method for Golgi bodies, 531 



