Lobitzzz blog... Lobitzzz blog...Lobitzzz Lobitzzz blog...Lobitzzz blog... Lobitzzz blog...Lobitzzz Lobitzzz blog...

ako ito...

My photo
Ako nga pala si Lobitz, sa Pisay nag-aaral at mahilig ako sa mga kinahihiligan ko... gusto ko ng mga gusto ko.. at natatawa ako sa mga nakakatawang bagay.. at ayaw ko sa mga kinaiinisan ko... yun lang

downloaddownloaddownload

Friday, September 26, 2008

Saan

Isa pang poem ko rin...

Saan


Alam mo ba kung saan ka pupunta?

Kung mamatay, ay sinong makikita?

Mabuti ba ang iyong pinaniniwalaan?

O baka nama'y nagdadasal-dasalan?


Kung anong ganda ng langit,

ay may lugar naman na kay pangit.

Doo'y sobra ang init,

apoy ay parang naninipit.


Tao roon ay 'di payaso,

kundi demonyong may hawak na latigo.

Uod doon ay 'wag maliitin,

'pagkat ikaw ang kanilang pagkain.


Masarap bumili ng juice,

ngunit doo'y asupre ang umaagos.

Kahit merong sandaang electric fan,

walang silbi, dahil walang saksakan.


Ibang tao'y 'wag sisihin,

si Hesus lan ang sambahin.

Makinig sa aking sinabi,

dahil habang buhay kang magsisisi.

Halik

eto ng pala yung poem na ginawa ko para sa filipino namin....

Halik


Bakit parang malamig?

Ako ay nanginginig.

Idinilat ang mata,

at biglang napanganga.


Isang dalampasigan,

ang aking nasilayan.

Babaeng ang gaganda,

sa aki'y nagpasaya.


Kumaripas ng takbo,

sa tubig ay patungo.

Kumusta binibini?

Ang balat ay kay puti.


Puso'y tumibok-tibok,

sana ay 'di masuntok.

Ang dalaga'y ngumiti,

para bang kalapati.


Ako'y sabik na sabik,

matikman lang ang halik.

Ang labi ay sumipsip,

'to pala'y panaginip

Thursday, September 25, 2008

THE HAPPY FACE THEORY

nakikita niyo ba iyang nasa itaas? iyan ay isang drawing na ginawa ko... gumawa ako ng isang theory na kayang i-explain ang maraming bagay dito sa mundo at kalawakan... marami siyang na-eexplain tulad ng equation ni einstein na e=mc squared. basta... tumingin ka sa ibaba...

I-click niyo na lang para makita lahat...
isa pang pinuprove niya ay...
I-click niyo na lang para makita lahat...


marami talagan siyang ma-eexplain na bagay...

Wednesday, September 24, 2008

ano bang meron sa Pisay??

alam niyo ba... na mayroong mga kababalaghang makikita sa pisay... hindi mo alam kung sino o ano ang kasama mo at tumitingin sa iyo, malay mo may mga espiritu sa paligid mo ngayon at tinititigan ka, pwedeng anghel o iba... ikukuwento ko ang isa sa karanasan ko eskwelahan ng mga matatalino...

library, library, library

Enrollment noon, tandang tanda ko pa. Kakabigay lang sa akin ng tita ko ng bagong cellphone, bilang premyo ko. Pumunta kami ng nanay ko sa eskwelahan upang mag-enroll, pang apat ako sa listahan ng nag-eenroll. Lumabas muna ako dahil inip na inip na ako sa registrar ar upang malibot ko ang pisay, nilabas ko ang cellphone ko at pinaandar ko ang stopwatch upang malaman . pumunta ako sa labas ang nagsimulang maglakad patungo sa gawing library. wala pang mga tao noon, kaya sarado ang library, madilim sa loob, tahimik. Pumunta na lang ako sa corridor malapit sa front landing, naglakad ako nang mabagal at inilabas ko ang aking cellphone upang gumawa ng video para kunwari ako ay naglalakbay. pagkatapos ng ilang segundong nagplaplay ang video... may isang imahe ang nabuo sa loob ng cellphone ko habang nagvivideo ngunit wala naman sa labas... tinignan ko kung ano ito, at inisip na ito ay kagagawan lamang nang araw ngunit, madilim dun sa lugar na iyon eh... kaya naisip ko na hindi na ito ilaw lamang, iba na ito, habang tumatagal, napansin ko na papalapit ang parang kumot ng larawan sa akin. pinatay ko ang camera at tinignan ang stop watch ko, laking gulat ko ng makita kong tumitigil tigil ang pag-andar sa orasan, para bang bumabagal ang oras. kumaripas ako ng takbo papunta sa registrar. pagkadating ko doon, nakita ko ang nanay ko...

Tuesday, September 23, 2008

top 10 pictures ng hubble telescope

Spectacular Space Photos
View SlideShare presentation or Upload your own. (tags: space objects)

Monday, September 22, 2008

patay ka na.

Learning From the Dead

Turns out that a body reveals more details about its death than once thought

Learning From The Dead: Photo by Medi-Mation

Whether it’s the blue, ragged fingernails of a heroin-overdose victim or the scaly skin of someone poisoned by arsenic, a corpse bears signs that unveil the secrets behind its life and death. Right now, 40,000 John and Jane Does wait in morgues. Although accident and murder victims are 15 to 30 times as likely to be autopsied as those who die of natural causes, even run-of-the-mill autopsies can yield important information on how a person died. This data has important implications for public health and safety and the legislation that governs those areas of interest. Autopsy findings have led to tougher military gear, fire-resistant clothing, crashworthy fuel systems and child-safe toys. They have also helped reveal how HIV, tuberculosis and West Nile virus are transmitted. Medical examiners are always looking for smarter, faster and more reliable ways to uncover the truth.

Here are five technologies that epitomize the old morgue maxim Mortui vivos docent: The dead teach the living.

Hair:

Tracking a person’s movements
Hair illustrates the route people took before they died by revealing what water they drank. In February, researchers from the University of Utah and scientific-analysis company IsoForensics reported that the isotope ratios of oxygen and hydrogen in hair can link a person to regional water sources—sometimes down to sections of a given American state. Scientists can also track a person’s travels over long periods: The tips of the hair show older destinations; the roots, more recent ones.

Teeth:

ID’ing a body
Dental recognition goes back to the Romans. Last November, scientists from Kanagawa Dental College in Japan presented software that works 95 percent faster than manual methods. Within minutes, it locates three image matches from a database of dental records, which a forensic dentist then analyzes.

Brain:

Finding time of death
Establishing time of death is a notoriously dicey part of forensics and is usually accurate only up to three days postmortem. Scientists at the University of Bern Institute of Forensic Medicine in Switzerland are applying magnetic-resonance spectroscopy to “read” decomposition in the brain, making it easier to determine the time of death even three weeks after it occurs.

Heart:

Explaining the inexplicable
Researchers at the Mayo Clinic in Minnesota who study sudden, unexplained deaths in people under age 40 discovered last year that in up to a third of cases, postmortem genetic testing revealed that inherited heart-rhythm conditions contributed to death. These conditions, such as Long QT syndrome, go unnoticed by conventional autopsies. Finding them allows relatives to get tested themselves and seek out treatments.

Eyes:

Determining age
Carbon dating could help identify thousands of unknown bodies. All humans ingest small quantities of the carbon isotope carbon-14 through food. Most tissues constantly regenerate, but carbon-14 accumulates in teeth and the lenses of eyes. By analyzing the carbon-isotope ratios in lens tissue, researchers at the University of Copenhagen in Denmark have discovered that they can establish, to within 1.5 years, when someone was born—much better than the five years possible with commonly used methods.

From Popular Science mag

Sunday, September 21, 2008

patay at binuhay na puso

Ghost Heart

Reanimating lifeless organs brings new hope for the millions on transplant waiting lists



Born to Beat: a rat heart fused with rat cells incubates in a bioreactor at the University of Minnesota: Photo by Courtesy Emily Jensen

In late 2005, cardiac researcher Doris Taylor revived the dead. She rinsed rat hearts with detergent until the cells washed away and all that remained was a skeleton of tissue translucent as wax paper—a ghost heart, as Taylor calls it. She injected the scaffold with fresh heart cells from newborn rats. Then she waited.

What she witnessed four days later, once the cells had a chance to make themselves at home, was astonishing. "We could see these little areas that were beginning to beat," says Taylor, director of the University of Minnesota's Center for Cardiovascular Repair. "By eight days, we could see the whole heart beating. The first time that happened, it was like ‘yes!' "

The experiment, which was reported this year in the journal Nature Medicine, marked a watershed moment: the first time scientists had created a functioning heart in the lab from biological tissue. For the 62 million people living with congestive heart failure, a condition in which the heart is no longer fit enough to pump blood through the body, drugs and heart-repair procedures frequently fall short; 60 percent of patients die within five years of diagnosis. A recellularized heart like Taylor's represents the first real hope for a cure—and she recently brought it one step closer to reality by devising a way to populate it with blood vessels. "There's a lot of smoke and mirrors in this field," says Todd McAllister, the CEO of Cytograft, a California-based tissue-engineering company. "Some people say they can grow a heart from scratch in 10 years, which is ridiculous. But Dr. Taylor's approach is more realistic because it's so simple and elegant. By using an existing heart, she's taken away all of the structural issues."

Taylor's system involves flushing animal hearts of cells using a cleanser, at which point only the extracellular matrix remains and "the hearts look almost clear," Taylor says. The next step is to infuse the hearts with a mix of mature and progenitor cardiac cells, which can come from a patient's own body to ensure compatibility. Incredibly, for reasons the team still doesn't understand, the cells seem to know how to divide and proliferate into cardiac tissue inside the empty-shell hearts.

This year, Taylor has continued to forge ahead toward her goal of creating transplantable, made-to-order human organs. Soon after she published her rat-heart results, she started working on making recellularized pig hearts—closer in size and shape to the human equivalent—that could pump blood and generate electrical impulses. "Our hope is that someday we'll be able to take a cadaver or pig organ, decellularize it, and transplant your own cells into the matrix to make an organ that matches your body," Taylor says.

Before a reliable human donor heart can be grown from a matrix, however, scientists must coax it to do more than just beat. "A heart isn't just a muscle. It also needs arteries and other tissues," explains cardiologist Robert Bonow of Northwestern University. "Doris Taylor has replaced the motor inside the chassis, so to speak, but she's got to find a way to get the other parts in there too."

She's working on it. Taylor's team has washed away the cells inside a rat aorta, for example, which is about the same size as a human coronary artery, and successfully seeded it with rat endothelial cells. The blood vessels grown in the lab are strong enough to withstand 19 pounds of pressure per square inch, a high enough performance threshold to make them viable in transplant hearts.

Taylor is focused on starting human clinical trials in the near future; she envisions a transplantable organ becoming available in "years, not decades." But she's also looking at the incredible number of other possible uses for her cell-seeding procedure. "The coolest thing is, it's not just about hearts—we could do this with kidneys, lungs and livers as well."

From popular science magazine