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Welcome to The Visible Embryo, a comprehensive educational resource on human development from conception to birth.

The Visible Embryo provides visual references for changes in fetal development throughout pregnancy and can be navigated via fetal development or maternal changes.

The National Institutes of Child Health and Human Development awarded Phase I and Phase II Small Business Innovative Research Grants to develop The Visible Embryo. Initally designed to evaluate the internet as a teaching tool for first year medical students, The Visible Embryo is linked to over 600 educational institutions and is viewed by more than ' million visitors each month.


WHO International Clinical Trials Registry Platform
The World Health Organization (WHO) has created a new Web site to help researchers, doctors and patients obtain reliable information on high-quality clinical trials. Now you can go to one website and search all registers to identify clinical trial research underway around the world!



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Disclaimer: The Visible Embryo web site is provided for your general information only. The information contained on this site should not be treated as a substitute for medical, legal or other professional advice. Neither is The Visible Embryo responsible or liable for the contents of any websites of third parties which are listed on this site.
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Pregnancy Timeline by SemestersFemale Reproductive SystemFertilizationThe Appearance of SomitesFirst TrimesterSecond TrimesterThird TrimesterFetal liver is producing blood cellsHead may position into pelvisBrain convolutions beginFull TermWhite fat begins to be madeWhite fat begins to be madeHead may position into pelvisImmune system beginningImmune system beginningPeriod of rapid brain growthBrain convolutions beginLungs begin to produce surfactantSensory brain waves begin to activateSensory brain waves begin to activateInner Ear Bones HardenBone marrow starts making blood cellsBone marrow starts making blood cellsBrown fat surrounds lymphatic systemFetal sexual organs visibleFinger and toe prints appearFinger and toe prints appearHeartbeat can be detectedHeartbeat can be detectedBasic Brain Structure in PlaceThe Appearance of SomitesFirst Detectable Brain WavesA Four Chambered HeartBeginning Cerebral HemispheresEnd of Embryonic PeriodEnd of Embryonic PeriodFirst Thin Layer of Skin AppearsThird TrimesterDevelopmental Timeline
Click weeks 0 - 40 and follow fetal growth
Google Search artcles published since 2007
 
November 11, 2011--------News Archive

Pre-birth Brain Growth Problems Linked to Autism
A small, preliminary study provides direct evidence for possible prenatal causes of autism.

Poor 1st, 3rd Trimester Sleep Linked to Early Births
Improving mother’s sleep habits through early intervention could reduce risk.

November 10, 2011--------News Archive

Possible New Target for Treating Kids' Liver Disease
An unexpected discovery in an often lethal pediatric liver disease may lead to a new therapy for the hard-to-treat condition.

Diagnoses of Autism Spectrum Disorders Vary Widely
Study suggests common diagnostic subcategories like asperger syndrome are flawed are of questionable value.

November 9, 2011--------News Archive

Single Protein Causes Varicose Veins
Scientists have developed a model for studying varicose veins. Their hope is that drugs can be developed to decelerate or even prevent new varicose veins.

"Switching On/Off" of Brain Genes Throughout Life
The “switching on” or expression of specific genes in the human makes each human being unique. The On/Off switching of brain cells continues throughout life.

Balancing Male and Female X Genes
Cells use 'mathematics' to equalize the loss of an X chromosome gene in males.

November 8, 2011--------News Archive

MRI Reveals Injuries in Developing Brain
New research supports the potential of high-field MRI for early identification of tiny brain injuries in the preterm infant.

Epigenetic Signatures of Autism
Analysis reveals overlap between genetic and epigenetic risk maps in autism.

November 7, 2011--------News Archive

"Cat Litter" Disease Alters Brain Chemistry
Infection by the brain parasite Toxoplasma gondii, directly affects the production of dopamine in the brain.

Two Molecules That Kill Lymphoma Cells In Mice
Two molecules have been identified that may be more effective as lymphoma cancer killers than anything currently available on the market.

Why Some Children Became Critically Ill in 2009 Flu
The largest study to date finds that kids co-infected with MRSA had an increased death risk of 8-fold. Flu vaccination is strongly urged!

WHO Child Growth Charts

A research group from the University of Leeds has shown that infection by the brain parasite Toxoplasma gondii, found in 10-20 per cent of the UK's population, directly affects the production of dopamine, a key chemical messenger in the brain.

Toxoplasma gondii is a parasitic protozoa found in the cat, but can be carried by many warm-blooded animals, birds or mammals, including humans. It is often contacted through pet feces. Pregnant moms should not be changing the kitty litter to avoid contact with this prevalent parasite.

The findings of the study are the first to demonstrate that any parasite found in the brain of mammals can affect dopamine levels.

While the work has been carried out with rodents, lead investigator Dr Glenn McConkey of the University's Faculty of Biological Sciences, believes that the findings could ultimately shed new light on treating human neurological disorders that are dopamine-related such as schizophrenia, attention deficit hyperactivity disorder, and Parkinson's disease.

This research may explain how these parasites, remarkably, manipulate rodents' behaviour for their own advantage. Infected mice and rats lose their innate fear of cats, increasing the chances of being caught and eaten, which enables the parasite to return to its main host to complete its life cycle.

In this study, funded by the Stanley Medical Research Institute and Dunhill Medical Trust, the research team found that the parasite causes production and release of many times the normal amount of dopamine in infected brain cells.

Dopamine is a natural chemical which relays messages in the brain controlling aspects of movement, cognition and behaviour. It helps control the brain's reward and pleasure centres and regulates emotional responses such as fear. The presence of a certain kind of dopamine receptor is also associated with sensation-seeking, whereas dopamine deficiency in humans results in Parkinson's disease.

These findings build on earlier studies in which Dr McConkey's group found that the parasite actually encodes the enzyme for producing dopamine in its genome.

"Based on these analyses, it was clear that T. gondii can orchestrate a significant increase in dopamine production in neural cells," says Dr McConkey.

"Humans are accidental hosts to T. gondii and the parasite could end up anywhere in the brain, so human symptoms of toxoplasmosis infection may depend on where parasite ends up. This may explain the observed statistical link between incidences of schizophrenia and toxoplasmosis infection."

Dr McConkey says his next experiments will investigate how the parasite enzyme triggers dopamine production and how this may change behaviour.

Original article: http://www.eurekalert.org/pub_releases/2011-11/uol-bpd110411.php