Stereology meets electron tomography: towards quantitative 3D electron microscopy.

[1]  Counting in Nano: Optical Sectioning at the Electron Microscopic Level , 2007, Microscopy and Microanalysis.

[2]  R. Wepf,et al.  Pros and cons: cryo‐electron microscopic evaluation of block faces versus cryo‐sections from frozen‐hydrated skin specimens prepared by different techniques , 2007, Journal of microscopy.

[3]  C. Vrints,et al.  Stereology: a simplified and more time-efficient method than planimetry for the quantitative analysis of vascular structures in different models of intimal thickening. , 2007, Cardiovascular pathology : the official journal of the Society for Cardiovascular Pathology.

[4]  Matthias Ochs,et al.  How much is there really? Why stereology is essential in lung morphometry. , 2007, Journal of applied physiology.

[5]  M. Kantarci,et al.  Stereological evaluation of treatment response in patients with non‐resectable hepatic alveolar echinococcosis using computed tomography via the Cavalieri method , 2006, Liver international : official journal of the International Association for the Study of the Liver.

[6]  M. Ochs,et al.  A brief update on lung stereology , 2006, Journal of microscopy.

[7]  S. Pennycook,et al.  Depth sectioning with the aberration-corrected scanning transmission electron microscope. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[8]  H. Gundersen,et al.  Design-based stereological analysis of the lung parenchymal architecture and alveolar type II cells in surfactant protein A and D double deficient mice. , 2005, The anatomical record. Part A, Discoveries in molecular, cellular, and evolutionary biology.

[9]  V. Lučić,et al.  Structural studies by electron tomography: from cells to molecules. , 2005, Annual review of biochemistry.

[10]  J. Dubochet,et al.  Cutting artefacts and cutting process in vitreous sections for cryo-electron microscopy. , 2005, Journal of structural biology.

[11]  J Ringnalda,et al.  Breaking the spherical and chromatic aberration barrier in transmission electron microscopy. , 2005, Ultramicroscopy.

[12]  J. Frank Electron tomography : methods for three-dimensional visualization of structures in the cell , 2005 .

[13]  J. Nyengaard,et al.  GM-CSF mediates alveolar epithelial type II cell changes, but not emphysema-like pathology, in SP-D-deficient mice. , 2004, American journal of physiology. Lung cellular and molecular physiology.

[14]  David B Ress,et al.  Methods for generating high-resolution structural models from electron microscope tomography data. , 2004, Structure.

[15]  Adrian Baddeley,et al.  Stereology for Statisticians , 2004 .

[16]  A. Hehl,et al.  Secretory protein trafficking in Giardia intestinalis , 2004, Molecular microbiology.

[17]  Matthias Ochs,et al.  The number of alveoli in the human lung. , 2004, American journal of respiratory and critical care medicine.

[18]  Christopher S von Bartheld,et al.  Differential tissue shrinkage and compression in the z-axis: implications for optical disector counting in vibratome-, plastic- and cryosections , 2003, Journal of Neuroscience Methods.

[19]  O. L. Krivanek,et al.  Sub-ångstrom resolution using aberration corrected electron optics , 2002, Nature.

[20]  J R Nyengaard,et al.  Tissue shrinkage and unbiased stereological estimation of particle number and size * , 2001, Journal of microscopy.

[21]  H. Gundersen,et al.  Estimating the number of complex particles using the ConnEulor principle , 2001, Journal of microscopy.

[22]  H. Gundersen,et al.  Total regional and global number of synapses in the human brain neocortex , 2001, Synapse.

[23]  M Marko,et al.  The Emergence of Electron Tomography as an Important Tool for Investigating Cellular Ultrastructure , 2001, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[24]  M J Puddephat,et al.  The benefit of stereology for quantitative radiology. , 2000, The British journal of radiology.

[25]  Studer,et al.  Minimal compression of ultrathin sections with use of an oscillating diamond knife , 2000, Journal of microscopy.

[26]  H. Gundersen,et al.  The efficiency of systematic sampling in stereology — reconsidered , 1999, Journal of microscopy.

[27]  L D Blumhardt,et al.  Three dimensional MRI estimates of brain and spinal cord atrophy in multiple sclerosis , 1999, Journal of neurology, neurosurgery, and psychiatry.

[28]  R. Webb,et al.  Theoretical basis of confocal microscopy. , 1999, Methods in enzymology.

[29]  A. Mironov,et al.  Estimation of subcellular organelle volume from ultrathin sections through centrioles with a discretized version of the vertical rotator , 1998, Journal of microscopy.

[30]  Bernd Kabius,et al.  Electron microscopy image enhanced , 1998, Nature.

[31]  M. Ochs,et al.  Ultrastructural pathology of the alveolar type II pneumocytes of human donor lungs , 1998, Virchows Archiv.

[32]  V. Howard,et al.  Unbiased Stereology: Three-Dimensional Measurement in Microscopy , 1998 .

[33]  M. Ochs,et al.  Studying lung ultrastructure , 1998 .

[34]  Aubrey E. Taylor,et al.  Methods in Pulmonary Research , 1998, Birkhäuser Basel.

[35]  M. von Mach,et al.  Adaptation of the disector method to rare small organelles in TEM sections exemplified by counting synaptic bodies in the rat pineal gland , 1997, Journal of anatomy.

[36]  A. Schmiedl,et al.  Morphometric characterisation of the fine structure of human type II pneumocytes , 1995, The Anatomical record.

[37]  Joachim Frank,et al.  Electron Tomography , 1992, Springer US.

[38]  Mayhew Tm,et al.  The new stereological methods for interpreting functional morphology from slices of cells and organs , 1991, Experimental physiology.

[39]  H. Gundersen,et al.  Unbiased stereological estimation of the number of neurons in the human hippocampus , 1990, The Journal of comparative neurology.

[40]  H. J. G. Gundersen,et al.  The new stereological tools: Disector, fractionator, nucleator and point sampled intercepts and their use in pathological research and diagnosis , 1988, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[41]  H. J. G. GUNDERSEN,et al.  Some new, simple and efficient stereological methods and their use in pathological research and diagnosis , 1988, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[42]  H J Gundersen,et al.  The efficiency of systematic sampling in stereology and its prediction * , 1987, Journal of microscopy.

[43]  D. C. Sterio The unbiased estimation of number and sizes of arbitrary particles using the disector , 1984, Journal of microscopy.

[44]  L M Cruz-Orive,et al.  Sampling designs for stereology * , 1981, Journal of microscopy.

[45]  L M Cruz-Orive,et al.  Measuring error and sampling variation in stereology: comparison of the efficiency of various methods for planar image analysis , 1981, Journal of microscopy.

[46]  R. Østerby,et al.  Optimizing sampling efficiency of stereological studies in biology: or ‘Do more less well!‘ , 1981, Journal of microscopy.

[47]  A. Reith,et al.  Comparison of semiautomatic digitizer-tablet and simple point counting performance in morphometry , 1981, Virchows Archiv. B, Cell pathology including molecular pathology.

[48]  E. Weibel Stereological Methods. Practical methods for biological morphometry , 1979 .

[49]  E. Weibel,et al.  Principles and methods for the morphometric study of the lung and other organs. , 1963, Laboratory investigation; a journal of technical methods and pathology.