View allAll Photos Tagged microscopic
A gnat under a digital microscope I made. Details at www.joetech.com/how-to-create-a-digital-microscope/
Little Venice (possibly better called Microscopic Venice for anyone who's been to the real Venice) in Maida Vale, north London, is actually a really lovely (if small) place. A part of the Grand Union Canal that used to power the British economy before rail and motorways, it houses many a lovely canal boat and is also a place where you can catch a canal boat up to Camden Lock (by Camden Markets). On a sunny day, it's a lovely place to be. It's accessable from the Warwick Avenue Tube stop on the Bakerloo Line.
Microscopic photo showing sheets of tumor cells with abundant granular cytoplasm and small unremarkable bland nuclei. The tumors is non-encapsulated and the tumor cells are grouped in a nest-like pattern, surrounded by thin strands of fibrous tissue. Jian-Hua Qiao, MD, FCAP, Los Angeles, CA, USA.
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A rare benign lung neoplasm with spaces lined with cells exhibiting immunohistochemical features of type 2 pneumocytes. It resembles the microcystic cystadenoma of the pancreas.
The alveoli are filled with granular eosinophilic surfactant-derived phospholiids and proteinaceous material. Alveolar proteinosis is the result of defective surfactant clearance from the alveoli due to macrophage dysfunction often associated with immunodeficiency states. Macrophages containing ingested lipid are seen within alveoli.
Microscopic Algae gets into the hollow hairs and turns them green in the summer. It's harmless and goes away in the fall/winter.
Microorganisms such as bacteria and many eukaryotic cells propel themselves with hair-like structures known as flagella, which can exhibit a variety of structures and movement patterns1. For example, bacterial flagella are helically shaped2 and driven at their bases by a reversible rotary engine3, which rotates the attached flagellum to give a motion similar to that of a corkscrew. In contrast, eukaryotic cells use flagella that resemble elastic rods4 and exhibit a beating motion: internally generated stresses give rise to a series of bends that propagate towards the tip5, 6, 7. In contrast to this variety of swimming strategies encountered in nature, a controlled swimming motion of artificial micrometre-sized structures has not yet been realized. Here we show that a linear chain of colloidal magnetic particles linked by DNA and attached to a red blood cell can act as a flexible artificial flagellum. The filament aligns with an external uniform magnetic field and is readily actuated by oscillating a transverse field. We find that the actuation induces a beating pattern that propels the structure, and that the external fields can be adjusted to control the velocity and the direction of motion.
Same thing shown 60X. What seemed like a very light green tint to the paper is revealed as halftone dots.
this represents the return to a technique/style I was attempting to update for future incorporation in new works
Microscopic photo showing juvenile fibroadenoma with intracanalicular growth pattern and moderate stromal hypercellularity. Jian-Hua Qiao, MD, FCAP, Los Angeles, CA, USA. (乔建华医师,病理学家)
Buckets and buckets of rain had fallen and had now turned into tiny sparkling drops on all of the leaves, each drop different from the one beside it. As I looked at the drops I imagined them filled with life (water = life). Small, even microscopic but abundant. Tiny Worlds.
All the Tiny Worlds shots done between May - Nov 2011.
I'm putting a little more time & effort into my Facebook Page these days (something I should of been doing but have been neglecting). I'm finding it's the easiest way to keep updated on what people are doing and keep them updated on what I'm doing. If you've got a few minutes, drop by, have a look around, say hi and maybe consider giving it a like.
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Microscopic photo showing juvenile fibroadenoma with periductal growth pattern and moderate stromal hypercellularity. Jian-Hua Qiao, MD, FCAP, Los Angeles, CA, USA. (乔建华医师,病理学家)
This 5 mm.lesion is at the upper limit of size for the diagnosis of tumorlet. If it was larger the diagnosis would be "typical carcinoid". The nodule is mostly sclerotic with relatively few nests of neuroendocrine cells.