INDEX 



741 



Lillie 's — (contin ued) 

 stains — {continued) 



picro-fuchsin, 328 ;picrif'-naphthol black, 

 32G, (in Lillie's method for myelin 

 sheaths, 400, Lillie's method for reticu- 

 lum, 593) 

 Lillie and Ashburn's mountant, 632 



in Lillie and Ashburn's method for fat, 449 

 in Wilson's method for fat, 450 

 Lillie and Earle's iron-hematoxylin, 285 



in Weigert's stain, 285 

 Lillie and Pasternack's double stain, 34G 

 Lily bud, fixation of, 149 



impregnating with nitrocellulose, 150 

 orienting in celloidin block, 150 

 section of, 149-152 

 staining nitrocellulose sections of, 151 

 Lime, as ingredient of Beale's French cement, 



655 

 Lim's double stain, 305 

 Linder's preservative, 177 

 Linin, 435 

 Linseed oil, as ingredient of, 



Beale's Brunswick black, 652; Coburn's 

 cement, 655; gold size, 652; Mendeleef's 

 cement, 656 

 Linstaedt's, celluloid sheet method for sec- 

 tions, 659 

 method for serializing nitrocellulose sec- 

 tions, 149 

 Lipoid, see Fat 



Lipp's methods for spirochetes, 480 

 Liquid petrolatum, for mounting, blood 

 smears, 34 

 wholemounts, 32 

 sealing mounts in, 35 

 Lison's fixative, 236 



method for argentaffin cells, 596 

 Lison and Dagnelle's method for myelin 



sheaths, 410 

 Literature cited, 670-680 

 Literature references, explanation of method 



used, 2 

 Litharge, as ingredient of Kitton's cement, 



654 

 Lithium carbonate, as ingredient of, 



Alzheimer's hematoxylin, 290; anony- 

 mous toluidine blue, 316; Bacsich's 

 hematoxylin, 29; Foot's silver diammine 

 stain, 578; Haug's carmine, 307; Kahl- 

 den and Laurent's carmine, 307; Laid- 

 law's silver diammine stain, 579; Long's 

 silver diammine stain, 579; Loyez's 

 hematoxylin, 291; Martinotti's methyl- 

 ene blue, 318; del Rio-Hortega's silver 

 diammine stain, 580; Schroder's hema- 

 toxyhn, 292 

 for, polychroming methylene blue, 346 

 removing picric acid, 273 

 Lithium-carmine, 307 



Lithium-hematoxylin, 290, 291, 408 

 Lithium sulfate, as ingredient of Fieandt 

 and Sazen's decalcifying fluid, 258 

 Liver fluke, collection of, 294 



wholemount of, 294-296 

 Liver, gold-chromic methods for, 541 

 lattice fibrils, 607 

 reticulum fibers in, 593 

 Ljubinsky's method for dijihtheria bacilli, 490 

 LoBianco's, fixatives, 



chrome-acetic, 229, 247; chromic-alco- 

 hol, 227, 247; chromic-formaldehyde, 

 230, 247; mercuric-acetic, 209, 247; 

 mercuric-chromic, 215, 247; mercuric- 

 cupric, 213, (for fixing, coral, 85, 

 medusae, 296); osmic-chromic, 199, 247, 

 248; osraic-dichromate, 203; picric- 

 chromic-sulfuric, 226, 247 

 narcotic, 265 

 Lobo's, developer, 618 



formaldehyde accelerator, 613 

 silver diammine stain, 576, 579 

 silver nitrate stain, 579 



in Lobo's methods for, nervous tissues, 

 557 

 neuroglia, 558 

 Lochead, see Perry, 427 

 Loffler's, methods for bacterial flagella, 482, 

 483 

 stains, crystal violet-magenta, 483 



in Mouye's method for bacterial fla- 

 gella, 482 

 indigo carmine-methyl violet, 483 

 in, 



NicoUe and Morax's method for 

 bacterial flagella, 483; Remy and 

 Sugg's method for bacterial flagella, 

 483 

 polychrome methylene blue, 317 

 in, 



Abbott's method for bacterial 

 spores, 484; Alexander's method for 

 acid-fast bacteria, 476; Alexander 

 and Jackson's method for acid-fast 

 bacteria, 476; Beauverie's method 

 for diphtheria bacilli, 489; Bitter's 

 method for bacterial spores, 485; 

 Castafieda's method for Rickettsiae, 

 462; Dawson's method for Negri 

 bodies, 75, 465; Fraenkel's method 

 for bacteria in sections, 492; Gay 

 and Clark's method for dead bac- 

 teria, 491; Gerlach's method for 

 Negri bodies, 465; Goodpasture's 

 method for Negri bodies, 465; Gor- 

 don's technique, 345; Graham's 

 method for oxidase granules, 417; 

 Guyer's method for bacteria in sec- 

 tions, 492; Kahlden and Laurent's 

 method for bacterial spores, 486; 



