44 Gen. Sub. 
I. GENERAL SUBJECTS. 
b. Histology. 
Minute structure of nerve-cells ; Lenhossek (411). — Structure of 
nerve-cells in Vertebrates; Flemming (231). — The structural and physio- 
logical nervous unit ; MacKendrick (434). — Multiplication and growth 
of ganglion-cells ; Rohde (574). — Minute structure of nerve-cell ; Co- 
LUC'Ci (124). — Sympathetic nerve-cells in activity and repose; Eve (208). 
— Morphological plasticity of the cerebral neurons ; Demoor (158). — 
Atlas of nerve-cells ; Starr (646). — Connections between neurons ; 
Meyer (459). — Conducting element in nervous tissue ; Apathy (16). — 
Nerve-medulla; Ambronn & Held (12), Held (317). — Structure of 
medullated nerve-fibres ; Friedlander (238). — Comparative anatomy 
of optic nerve ; Deyl (159). — Endings of sensory nerves in Vertebrates; 
Kallius (355). 
Minute structure of the retina ; Ram6n y Cajal (553). — Comparative 
histology of retina in Vertebrates ; retina of Selachii in particular ; 
Neumayer (495). 
Lectures on the structure of the central nervous system in man and 
animals, enlarged edition ; Edinger (187). 
Muscle-fibre ; Marchesini (440). 
Blood : Haemoglobin-producing granulations or droplets in erythro- 
cytes of tadpoles ; Giglio-Tos (264) [see Cell]. — S tructure and de- 
velopment of red blood-corpuscles inVertebrates; Giglio-Tos (265). — 
Morphology and biology of red blood-corpuscles ; Arnold (20). — 
Origin of red and white blood-corpuscles; Saxer (603). — Report of 
recent work on red blood-cells ; Disse (162). — Morphology and develop- 
ment of blood-cells ; Masslow (447). — Non-nucleation of Mammalian 
red blood-corpuscles ;• Israel & Pappenheim (347). — Blood-corpuscles 
in cold-blooded Vertebrates ; Knoll (369). 
Histology and histogenesis of connective tissue ; Spuler (642). — 
Development of fibrillar connective tissue; von Ebner (182). — Car- 
tilaginous tissue in general, with special ref erence to that of Ammoccetes ; 
Schaffer (604). — Intercellular bridges in columnar epithelium; Carlier 
(104), Schulze (619). 
Continuity of mesenchyme cells in Echinoid larvae, considered in re- 
lation to adequacy or inadequacy of cell-theory of development. Cells 
are less free than they appear to be. “ The cell-structure of the Metazoa 
is largely due to secondary differentiation, and a multinucleate Protozoon 
like Actinosphcermrri is to be compared to the Metazoon body, and not to 
a single unit of the same’’; MacBride (429). — Comparative histology of 
the Vertebrate stomach ; Oppel (506). — Stomach-glands of Vertebrates; 
Oppel (507). — Comparative histology of the liver in Vertebrates ; 
Braus (85). — Suprarenal capsules ; Pettit (535). 
4. Physiological. 
a. General. 
The energy of living protoplasm ; Loew (425). 
Assimilation and dis-assimilation ; Le Dantec (401). — Some points in 
the general morphology of the Metazoa considered in connection with 
the physiological processes of alimentation and excretion ; Masterman 
(448). 
Granular disruption ; a contribution to the physiology of death ; 
Verworn (681). 
Relations of organisms to the air ; De Varigny (677). 
Conservation of energy ; how does the law apply to the animal body ? 
Zuntz (740). 
