The Ramblings of a Middle Aged Fertility Physician whose life revolves around Eggs, Sperms & Embryos....
Tuesday, August 12, 2008
First 'fast-freeze' IVF baby born
A couple have become the first in the UK to have a baby using a pioneering IVF technique which fast-freezes embryos, doctors in Cardiff say. Evie, who was conceived through "vitrification", was born to Ian and Rebecca Bloomer on 23 July. The method uses liquid nitrogen to freeze embryos quickly, reducing the risk of damage when they are thawed.
The couple, of Cwmbran, had tried for a baby for seven years and say their success should offer hope to others.
The couple had been trying for a baby since they married in 2001 but tests revealed Mrs Bloomer, 28, had endometriosis, a condition which was making it difficult for her to conceive.
They attended the IVF clinic at the University Hospital of Wales, in Cardiff, and after a failed attempt, the hospital offered the Bloomers a new way of freezing their unused embryos.
The technique - vitrification - gives embryos a better chance of surviving until couples are ready to try IVF again because the fast-freeze method prevents the formation of crystals that can damage embryos when they are thawed.
It's overwhelming. I'm still staring at her now thinking 'wow, she's ours - it's actually happened for us'
Mrs Bloomer became pregnant almost immediately using one of the fast-frozen embryos and gave birth to Evie at the Royal Gwent Hospital, in Newport, on 23 July.
"We were willing to try anything really, we'd both always wanted children. It's overwhelming. I'm still staring at her now thinking 'wow, she's ours - it's actually happened for us'," said Mrs Bloomer.
"I hope that if anybody going through treatment sees us and sees Evie it gives them one last little bit of hope to go for it.
"It's been a real emotional rollercoaster. There's been ups and downs, but you get through it and to have Evie now, you forget what you went through. It makes it all worthwhile."
The Cardiff hospital was the first in the UK to begin offering embryo vitrification, in August 2007.
Lyndon Miles, head of embryology and andrology for IVF Wales, said 17 out of the 39 women offered the treatment so far had fallen pregnant and four of those were expecting twins.
He said the process would also be helpful to women diagnosed with cancer who wanted to freeze a number of eggs in case chemotherapy left them infertile.
"Though this is a new technique for the UK, early results and publications in Japan and the USA have been extremely encouraging," Mr Miles said.
Lyndon Miles said he was delighted to have helped the Bloomers. "The first published study on babies born from vitrification shows no adverse effects of the technique and there are no implications to Evie's health as a result of the vitrification process.
"I'm delighted we have been able to help Ian and Rebecca."
Vitrification involves rapidly cooling and storing embryos at very low temperatures for future use.
"An IVF cycle produces a number of embryos. Those that aren't immediately transferred back to the patient and that are of good enough quality are cooled slowly to the temperature of liquid nitrogen (-196C) and stored until needed.
"Conventional, slow freezing creates ice crystals which can damage the embryo as it is thawed," Mr Miles said.
"Vitrification differs from traditional cooling and storing techniques in that it allows instantaneous 'glass-like' solidification of eggs and embryos without the formation of ice crystals.
"Since no ice crystals form, a much greater percentage of embryos survive thawing following vitrification."
He said with conventional freezing methods, post-thaw survival rates varied from 50% to 80% whereas with vitrification they had achieved 98%.
"In addition, since the introduction of the technique, our pregnancy rate has more than doubled compared to conventional freezing methods," Mr Miles added.
Monday, August 11, 2008
Serum anti-Müllerian hormone levels predict ICSI outcomes
The number of oocytes retrieved for intracytoplasmic sperm injection (ICSI) is strongly associated with midluteal, early follicular, and ovulatory anti-Müllerian hormone (AMH) levels, Egyptian researchers have discovered.
Dahlia El-Haieg and colleagues from the University of Zagazig, measured AMH, follicle-stimulating hormone (FSH), and leuteinizing hormone levels, and conducted ultrasound evaluation, during the menstrual cycle of 33 patients undergoing their first ICSI treatment cycle.
Nine women had a poor response to ICSI. The number of oocytes retrieved from normal and poor responders was 9.4 and 3.0, respectively.
AMH levels were significantly lower in poor than normal responders in both the ovulatory and midluteal phases. The number of oocytes retrieved positively correlated with midluteal AMH, day 3 AMH, and ovulatory AMH levels, as well as antral follicle counts and average ovarian volume. Day 3 FSH levels negatively correlated with the number of oocytes retrieved.
Poor response was predicted by midluteal, day 3, and ovulatory AMH levels, with areas under the receiver operating characteristics curves of 0.977, 0.900, and 0.980, respectively. Midluteal and early AMH also significantly predicted clinical pregnancy.
"Midluteal and early follicular AMH may offer a better prognostic value for clinical pregnancy than other currently available markers of assisted reproductive technology outcomes," the team concludes.
Dahlia El-Haieg and colleagues from the University of Zagazig, measured AMH, follicle-stimulating hormone (FSH), and leuteinizing hormone levels, and conducted ultrasound evaluation, during the menstrual cycle of 33 patients undergoing their first ICSI treatment cycle.
Nine women had a poor response to ICSI. The number of oocytes retrieved from normal and poor responders was 9.4 and 3.0, respectively.
AMH levels were significantly lower in poor than normal responders in both the ovulatory and midluteal phases. The number of oocytes retrieved positively correlated with midluteal AMH, day 3 AMH, and ovulatory AMH levels, as well as antral follicle counts and average ovarian volume. Day 3 FSH levels negatively correlated with the number of oocytes retrieved.
Poor response was predicted by midluteal, day 3, and ovulatory AMH levels, with areas under the receiver operating characteristics curves of 0.977, 0.900, and 0.980, respectively. Midluteal and early AMH also significantly predicted clinical pregnancy.
"Midluteal and early follicular AMH may offer a better prognostic value for clinical pregnancy than other currently available markers of assisted reproductive technology outcomes," the team concludes.
Sunday, August 10, 2008
Phonics Unleashed
Sent by a School-teacher friend of mine. Makes for really interesting reading!
"My five-year old students are learning to read. Yesterday one of them pointed at a picture in a zoo book and said,
'Look at this! It's a frickin' elephant!'
I took a deep breath, then asked...'What did you call it?'
'It's a frickin' elephant! It says so on the picture!'
And so it does...
Saturday, August 9, 2008
Friday, August 8, 2008
Thursday, August 7, 2008
Wednesday, August 6, 2008
A Must Read Fwd
Ancient Hindus could navigate the air
By Shachi Rairikar
"The ancient Hindus could navigate the air, and not only navigate it,but fight battles in it like so many war-eagles combating for the domination of the clouds.
To be so perfect in aeronautics, they must have known all the arts and sciences related to the science, including
the strata and currents of the atmosphere, the relative temperature,humidity, density and specific gravity of the various gases..."
- Col. Olcott in a lecture in Allahabad, in 1881.
The Rig Veda, the oldest document of the human race, includes references to the following modes of transportation: jalayanâa vehicle designed to operate in air and water (Rig Veda 6.58.3); kaaraâa vehicle that operates on ground and in water (Rig Veda 9.14.1); tritalaâa vehicle consisting of three storeys (Rig Veda 3.14.1); trichakra rathaâa three-wheeled vehicle designed to operate in air (Rig Veda 4.36.1); vaayu rathaâa gas or wind-powered chariot (Rig Veda 5.41.6); vidyut rathaâa vehicle that operates on power (Rig Veda 3.14.1).
Ancient Sanskrit literature is full of descriptions of flying machines -"vimanas".
From the many documents found, it is evident that the scientist-sages Agastya and Bharadwaja had developed the lore of aircraft construction.
The Agastya Samhita gives Agastya's descriptions on two types of aeroplanes. The first is a chchatra (umbrella or balloon) to be filled with hydrogen. The process of extracting hydrogen from water is described in elaborate detail and the use of electricity in achieving this is clearly stated. This was considered to be a primitive type of plane, useful only for escaping from a fort when the enemy had set fire to the jungle all around. Hence the name agniyana.
The second type of aircraft mentioned is somewhat on the lines of the parachute. It could be opened and shut by operating chords. This aircraft has been described as vimanadvigunam, i.e. of a lower order than the regular aeroplane.
The process of extracting hydrogen from water is described in elaborate detail and the use of electricity in achieving this is clearly stated.
Aeronautics or Vaimaanika Shastra is a part of Yantra Sarvasva of Bharadwaja. This is also known as Brihadvimaana Shastra.
Vaimaanika Shastra deals with aeronautics, including the design of aircraft, the way they can be used for transportation and other applications, in detail.
The knowledge of aeronautics is described in Sanskrit in 100 sections, eight chapters, 500 principles and 3,000 shlokas. Great sage Bharadwaja explained the construction of aircraft and the way to fly it in air, on land, on water and use the same aircraft like a submarine. He also described the construction of war-planes and fighter aircraft.
Vaimaanika Shastra explains the metals and alloys and other required material, which can make an aircraft imperishable in any condition. Planes which will not break (abhedya), or catch fire (adaahya) and which cannot be cut (achchedya) have been described. Along with the treatise, there are diagrams on three types of aeroplanes -"Sundara, Shukana and Rukma".
The aircraft is classified into three types -"Mantrika, Tantrika and Kritaka", to suit different yugas or eras.
In krita yuga, it is said, Dharma was well established. The people of that time had the divinity to reach any place using their ashtasiddhis. The aircraft used in treta yuga are called Mantrika vimana, flown by the power of hymns
(mantras). Twenty-five varieties of aircraft including Pushpaka vimana belong to this era.
The aircraft used in dwapara yuga were called Tantrika vimana, flown by the power of tantras. Fifty-six varieties of
aircraft including Bhairava and Nandaka belong to this era.
The aircraft used in kali yuga, the on-going yuga, are called Kritaka vimana, flown by the power of engines. Twenty-five varieties of aircraft including Sundara, Shukana and Rukma belong to this era.
Bharadwaja states that there are 32 secrets of the science of aeronautics.
Of these, some are astonishing and some indicate an advance even beyond our own times.
For instance, the secret of para shabda graaha, i.e. a cabin for listening to the conversation in another plane, has been explained by elaborately describing an electrically worked sound-receiver that did the trick. Manufacture of
different types of instruments and putting them together to form an aircraft are also described.
It appears that aerial warfare was also not unknown, for the treatise gives the techniques of shatru vimana kampana kriya, and shatru vimana nashana kriya, i.e. shaking and destroying enemy aircraft, as well as photographing enemy planes, rendering their occupants unconscious and making one's own plane invisible.
In Vastraadhikarana, the chapter describing the dress and other material required while flying, talks in detail about the clotheswear for both the pilot and the passenger separately.
Ahaaraadhikarana is yet another section exclusively dealing with the food habits of a pilot. This has a variety of guidelines for pilots to maintain their health through strict diet.
Bharadwaja also provides a bibliography. He had consulted six treatises by six different authors previous to him and he gives their names and the names of their works in the following order: Vimana Chandrika by Narayanamuni; Vyoma Yana Mantrah by Shaunaka; Yantra Kalpa by Garga; Yana Bindu by Vachaspati; Kheta Yaana Pradeepika by Chaakraayani; Vyoma Yaanarka Prakasha by Dundi Natha.
As before Bharadwaja, after him too there have been Sanskrit writers on aeronautics and there were four commentaries on his work. The names of the commentators are Bodh Deva, Lalla, Narayana Shankha and Vishwambhara.
Vaimaanika Shastra explains the metals and alloys and other required material, which can make an aircraft imperishable in any condition.
Evidence of existence of aircraft are also found in the Arthashastra of Kautilya (c. 3rd century b.c.). Kautilya mentions amongst various tradesmen and technocrats the saubhikas as 'pilots conducting vehicles in the sky'.
Saubha was the name of the aerial flying city of King Harishchandra and the form saubika means 'one who flies or knows the art of flying an aerial city'. Kautilya uses another significant word, akasa yodhinah, which has been translated as 'persons who are trained to fight from the sky'.
The existence of aerial chariots, in whatever form it might be, was so well-known that it found a place among the royal edicts of Emperor Asoka and which were executed during his reign from 256-237 b.c.
It is interesting to note that the Academy of Sanskrit Research in Melkote, near Mandya, had been commissioned by the Aeronautical Research Development Board, New Delhi, to take up a one-year study on 'Non-conventional Approach to Aeronautics', on the basis of Vaimaanika Shastra.
As a result of the research, a glass-like material which cannot be detected by radar has been developed by Prof. Dongre, a research scholar of Benaras Hindu University. A plane coated with this unique material cannot be detected using radar.
But perhaps the most interesting thing about the Indian science of aeronautics and Bharadwaja's research in the field was that they were successfully tested in actual practice by an Indian over a 100 years ago.
In 1895, full eight years before the Wright Brothers' first flight at Kitty Hawk, North Carolina, USA, Shivkar Bapuji Talpade and his wife gave a thrilling demonstration flight on Chowpatty beach in Mumbai.
An even more astonishing feature of Talpade's aircraft was the power source he used- "an ion engine". The theory of the ion engine has been credited to Robert Goddard, long recognised as the father of liquid-fuel rocketry. It is claimed that in 1906, long before Goddard launched his first modern rocket, his imagination had conceived the concept of an ion rocket. But the fact is that not only had the idea of an ion engine been conceived long before Dr Goddard, it had also been materialised in the form of Talpade's aircraft.
Talpade, a resident of Mumbai, was an erudite scholar of Sanskrit literature, especially of the Vedas, an inventor and a teacher in the School of Arts. His deep study of the Vedas led him to construct an aeroplane in conformity with the descriptions of the aircraft available in the Vedas and he displayed it in an exhibition arranged by the Bombay Art Society in the Town Hall.
Its proving the star attraction of the exhibition encouraged its maker to delve deeper into the matter and see if the plane could be flown with the aid of mercurial pressure. For, the one hundred-and-ninetieth richa (verse) of the Rig Veda and the aeronautical treatise of Bharadwaja mention that flying machines came into full operation when the power of the sun's rays, mercury and another chemicals called naksha rasas were blended together.
This energy was, it seems, stored in something like an accumulator or storage batteries. The Vedas refer to eight
different engines in the plane and Bharadwaja adds that they are worked by electricity.
Talpade carried on his research along these lines and constructed an aeroplane. In his experiments he was aided by his wife, also a deep scholar of the Vedic lore, and an architect-friend. The plane combined the constructional characteristics of both Pushpaka and Marut Sakha, the sixth and eighth types of aircraft described by Bharadwaja. It was named Marut Sakha meaning "friend of the wind".
With this plane, this pioneer airman of modern India gave a demonstration flight on the Chowpatty beach in Mumbai in the year 1895. The machine attained a height of about 1,500 feet and then automatically landed safely.
The flight was witnessed, among many others, by Shri Sayajirao Gaekwad, the Maharaja of Baroda and Justice
Govind Ranade and was reported in the Kesari, a leading Marathi dailynewspaper. They were impressed by the feat and rewarded the talented inventor.
Unfortunately, Talpade lost interest in things after his wife's death, and after his own death in 1917 at the age of 53, his relatives sold the machine to the Rally Brothers, a leading British exporting firm then operating in Mumbai.
Thus, the first ever attempt at flying in modern India, undertaken and made successful by an Indian, in a plane
of Indian manufacture and built to Indian scientific specifications, slid into the limbo of oblivion.
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