the naked mole rat has what could be the most extraordinary set of natural defenses ever found in a mammal. A mouse’s life is short and terrible—even in the lab, with plenty of food and a steady thermostat, it lasts for just three or four years at the most. A naked mole rat shows no sign of aging until it’s a quarter of a century old. Blind and plump, it skitters around in a hazmat suit of its own creation. _Slate

Naked mole rats appear impervious to radiation and carcinogens of all kinds. These naked mole rats are incredibly reluctant to get cancer. And that is not the half of it:

In 2004, Buffenstein and her students tried one of these shortcuts. They placed some mole rats in a gamma chamber and blasted their pale, pink bodies with ionizing rays. The animals were unimpressed. When I visited Buffenstein’s lab this past July, many were still alive, skittering through the plastic tubes of their basement habitat at the Barshop Institute for Longevity and Aging Studies.

Four years later, Buffenstein…infected cells from a naked mole rat with a virus designed to corrupt their nuclei with the cancer-causing genes SV40 TAg and Ras. Then she slipped those cells into a live mouse, under the skin behind its ear. If you do the same using infected material from a mouse or a rat, or even a cow or a human, the transplant quickly grows into a deadly tumor, invading nearby fat and muscle tissue. But when Buffenstein and her colleagues used cells from a naked mole-rat, nothing happened.

…Earlier this year, one of Buffenstein’s graduate students tried smearing the skin of half a dozen naked mole rats with a pair of vicious carcinogens: A synthetic compound called DMBA and an inflammatory agent known as TPA. When the same toxic pairing was applied to regular Black-6 lab mice as an experimental control, a cluster of tumors popped up within weeks. Every single mouse had cancer, and every single mouse died. The naked mole rats went on skittering through their tubes.

…Her latest assault involves pouring carcinogens down the mole rats’ throats in a last-ditch effort to induce liver or mammary cancer. But that may not work, either. For years, Buffenstein’s laboratory Rasputins have been irradiated, poisoned, and heated up; their cells dosed with every imaginable pollutant—chemotherapies, oxidative stressors, and heavy metals—with little or no effect. “You name it,” the professor says, “we tried all the kinds of toxins that are out there, and the naked mole rat seems to be very resilient and resistant.”

…The very thing that makes naked mole rats so interesting to Buffenstein—an astonishing vitality that lasts for decades—only makes her research more difficult. “You’re caught between a rock and a hard place, because they live so long that your grandchildren have to finish the studies you start.” Still, slow science may have rich rewards, and the decisions we make today—on whether to invest in new model organisms or build out the ones we already have—are sure to have profound effects on the (human) generations to come. _Slate

The above Slate article by Daniel Engber is an excellent example of good science writing. We learn about the things that make the naked mole rat intriguing as an object of study, then we learn why the biomedical funding establishment is so biased against funding studies using naked mole rats. The life of science is full of such conflicts, which can drive scientists out of the lab entirely if they cannot learn to deal with the frustrating politics and grant grubbing.

No human would want to trade places with a naked mole rat, even if it meant living 10 times longer — and in better health — than the average human. But we might want some of the naked rats resistance to cancer and degenerative change.

Human gerontologists are not trying to discover the path to immortality. They are not even trying to give humans the relative advantage in life span that the naked mole rat has over other rodents. What human scientists are trying to achieve is fairly modest — they want to find a way to delay the signs of aging for roughly seven years beyond the average:

THE TARGET What we have in mind is not the unrealistic pursuit of dramatic increases in life expectancy, let alone the kind of biological immortality best left to science fiction novels.20 Rather, we envision a goal that is realistically achievable: a modest deceleration in the rate of aging sufficient to delay all aging-related diseases and disorders by about seven years.21 This target was chosen because the risk of death and most other negative attributes of aging tends to rise exponentially throughout the adult lifespan with a doubling time of approximately seven years.22 Such a delay would yield health and longevity benefits greater than what would be achieved with the elimination of cancer or heart disease.23 And we believe it can be achieved for generations now alive.

If we succeed in slowing aging by seven years, the age-specific risk of death, frailty, and disability will be reduced by approximately half at every age. People who reach the age of 50 in the future would have the health profile and disease risk of today’s 43-year-old; those aged 60 would resemble current 53-year-olds, and so on. Equally important, once achieved, this seven-year delay would yield equal health and longevity benefits for all subsequent generations, much the same way children born in most nations today benefit from the discovery and development of immunizations.

A growing chorus of scientists agrees that this objective is scientifically and technologically feasible. How quickly we see success depends in part on the priority and support devoted to the effort. Certainly such a great goal – to win back, on average, seven years of healthy life – requires and deserves significant resources in time, talent and treasury. But with the mammoth investment already committed in caring for the sick as they age, and the pursuit of ever-more expensive treatments and surgical procedures for existing fatal and disabling diseases, the pursuit of the Longevity Dividend would be modest by comparison. In fact, because a healthier, longer-lived population will add significant wealth to the economy, an investment in the Longevity Dividend would likely pay for itself. _”TheScientist“_via_NR

Can we learn anything toward that end, from the naked mole rat? Quite possibly. But we have to be willing to put in the time and expense to learn how to transfer the lessons from that exceptional rodent to the human species.

Al Fin Longevity

Given the widespread use of technology in most occupations, one important issue concerns how the influx of technology will affect jobs for older workers and employment opportunities and the productivity for them. This issue is particularly important for today’s cohort of older workers, as they have not had the same exposure to technology that younger people have had. However, despite cohort differences, technology will continue to be a pertinent issue for future generations of older adults, as technology is dynamic and continuing to develop at an unprecedented rate. (more…)

Aging begins before we are born, is a lifelong process and continues throughout life. Throughout the life course, differing life experiences influence our capabilities and well-being in our later years. The functional capacity of our biological systems increases during the first years of life, reaches its peak in early adult-hood and naturally declines thereafter. Throughout most countries (but not all), persons experience a long childhood and a long old age. These two lengthy developmental spans have provided great utility. Throughout history, it has enabled older persons to educate the younger and pass on values to them. (more…)

Not all body fat is equally bad for your health. It is widely known that body fat distribution is extremely important. There is increasing evidence for the deleterious effects of Visceral Fat on aging. Waist-to-hip ratio (WHR) is an epidemiological tool that demonstrates a correlation between Visceral Fat and development of diabetes mellitus, stroke, coronary artery disease, and mortality. This ratio is easily determined by dividing the measurement of waist circumference by hip circumference. (more…)

Supraventricular Tachyarrhythmia

The principles of drug and non-drug management of supraventricular tachyarrhythmia (SVT) are similar to those outlined for stroke Atrial Fibrillation. However, for most supraventricular tachyarrhythmia, the arrhythmogenic substrate is isolated and well defined. AV nodal reentrant tachycardia (localized to the region of AVN) and atrioventricular reentrant tachycardia (with use of an accessory pathway) are the two most common types of supraventricular tachyarrhythmia. Atrial tachycardia can be reentrant or non-reentrant in mechanism, can be right or left atrial in origin, and can occur more frequently in the elderly population than in younger patients. (more…)

Cancer is the second leading cause of mortality after heart disease and the leading cause of death among women ages 40 to 79 and men ages 60 to 79. Within the 65+ age group, the population 85 years and older is projected to double from 4.3 million in 2005 million by 2030. Life expectancy has increased. More people are treated successfully after a cancer diagnosis, resulting in a greater prevalence of the elderly living with or developing cancer. It is important for all professionals dealing with the elderly to understand what the disease is and how to deal with it. (more…)

We do not realize the mechanisms of biological aging or the reasons for aging are the limits of the estimated averages life expectancy of people are very empirical. The forces of natural selection with age, as in natural populations, few people survive beyond the age of reproduction. In recognition of these ideas, some would suggest an antagonistic pleiotropy hypothesis that the genes of a disadvantage in a population is not necessary to the reproductive phase, after which take place occur at the population can get. The environment is hostile, and individuals compete for resources. (more…)

Aging is not only about old age. This is an ongoing process which will define the stages of biological, psychological and social conditions in human lives. Aging has limit for averages human life expectancy rate. For centuries, many have tried modern science to delay human life expectancy rate so much from this frightening condition of man. There are millions of websites on the internet providing information on aging and more than half a million consultations related searches information on how to alter averages human life expectancy rate. (more…)

There are differences on what exactly contribute to quality of life on a personal level from person to person. Although many older people in good health condition have the increase of physical problems that affect them and their businesses. Although these disorders are more common with age, including Alzheimer, dementia, arthritis, hypertension, heart disease, stroke, depression, kidneys problem; lung disease, cancer and men’s prostate disease. (more…)

The term education describes the process of acquiring abilities, skills, experiences, and knowledge systems as well as the results of this process. Specific contents of education reflect general cultural values and preferences of social environments and milieus, social change, and societal progress. (more…)