Tag Archives: temperature-sensitive drug distribution

FDA Announces Meeting on Implementing DSCSA’s Product Identification Requirements

Sentry BioPharma Services continues to strengthen its leadership position in providing high quality and secure pharmaceutical supply chain services to pharmaceutical clients and companies utilizing biotechnology to manufacture biological products and vaccines.  Therefore, we would like to draw attention to an upcoming public meeting concerning the Drug Supply Chain Security Act (DSCSA) hosted by the FDA.

fda-dscsaThe Food & Drug Administration (FDA) will be holding a public meeting to provide members of the pharmaceutical distribution supply chain and interested stakeholders an opportunity to discuss with FDA the implementation of the Drug Supply Chain Security Act’s (DSCSA’s) product identification requirements. To be held on October 14, 2016, from 9:00 a.m. to 4:00 p.m. at FDA’s White Oak Campus in Silver Spring, MD, the meeting, “Progress Toward Implementing the Product Identification Requirements of the Drug Supply Chain Security Act,” will include presentations from the public and follow-up questions from an FDA panel. The objective of the meeting is to discuss the pharmaceutical supply chain’s progress toward implementing the DSCSA’s product identification requirements, including best practices in each sector of the pharmaceutical distribution supply chain to conduct product tracing, verification, and identification.

More Background on the Drug Supply Chain Security Act (DSCSA)

Title II of the Drug Quality and Security Act of 2013

The Drug Quality and Security Act (DQSA), was signed into law by President Obama on November 27, 2013. Title II of DQSA, the Drug Supply Chain Security Act, outlines critical steps to build an electronic, interoperable system to identify and trace certain prescription drugs as they are distributed in the United States.

Ten years after enactment, the system will facilitate the exchange of information at the individual package level about where a drug has been in the supply chain. The new system will:

  • enable verification of the legitimacy of the drug product identifier down to the package level;
  • enhance detection and notification of illegitimate products in the drug supply chain; and
  • facilitate more efficient recalls of drug products.

Drug manufacturers, wholesale drug distributors, repackagers, and many dispensers (primarily pharmacies) will be called on to work in cooperation with FDA to develop the new system over the next 10 years.

Among key provisions implemented over the next 10 years are requirements for:

  • Product identification: Manufacturers and repackagers to put a unique product identifier on certain prescription drug packages, for example, using a bar code that can be easily read electronically.
  • Product tracing: Manufacturers, wholesaler drug distributors, repackagers, and many dispensers (primarily pharmacies) in the drug supply chain to provide information about a drug and who handled it each time it is sold in the U.S. market.
  • Product verification: Manufacturers, wholesaler drug distributors, repackagers, and many dispensers (primarily pharmacies) to establish systems and processes to be able to verify the product identifier on certain prescription drug packages.
  • Detection and response: Manufacturers, wholesaler drug distributors, repackagers, and many dispensers (primarily pharmacies) to quarantine and promptly investigate a drug that has been identified as suspect, meaning that it may be counterfeit, unapproved, or potentially dangerous.
  • Notification: Manufacturers, wholesaler drug distributors, repackagers, and many dispensers (primarily pharmacies) to establish systems and processes to notify FDA and other stakeholders if an illegitimate drug is found.
  • Wholesaler licensing: Wholesale drug distributors to report their licensing status and contact information to FDA. This information will then be made available in a public database.
  • Third-party logistics provider licensing: Third-party logistic providers, those who provide storage and logistical operations related to drug distribution, to obtain a state or federal license.

The law requires FDA to develop standards, guidance documents, and pilot programs and to conduct public meetings, in addition to other efforts necessary to support efficient and effective implementation. FDA is developing a schedule for implementing the law’s requirements.

This system will enhance the U.S. Food and Drug Administration’s ability to help protect consumers from exposure to drugs that may be counterfeit, stolen, contaminated, or otherwise harmful. The system will improve detection and removal of potentially dangerous drugs from the drug supply chain to protect U.S. consumers. Failure to comply with the requirements of the law can result in penalties.

The development of the system will be phased in with new requirements over a 10-year period. These requirements will include providing product and transaction information at each sale with lot level information, in paper or electronic format, and placing unique product identifiers on individual drug packages.

The FDA is soliciting either electronic or written comments related to this public meeting by November 14, 2016. To register or request to make a presentation, visit the public meeting web page.

For more information about how Sentry’s secure drug supply chain management programs can ensure drug product integrity in every phase of the pharmaceutical supply chain, contact Sentry via email or by phone at 1-866-757-7400.

Melanoma: A Preventable Killer

Moles to Melanoma: Recognizing the ABCDE Features by the National Cancer Institute

Sentry BioPharma Services provides oncology product management, global drug distribution, GMP storage and specialized services like pharmaceutical labeling, packaging and kitting.  Sentry plays a critical role in protecting temperature-sensitive product safety, identity, strength, purity and quality (SISPQ) for both cancer clinical trials and commercial drug distribution for a wide range of pharmaceutical and biotechnology clients. 

The focus of our post this week is preventable cancer.  Therefore, we are sharing this article from the National Cancer Institute (NCI) concerning a multi-year study of skin lesions and moles which resulted in melanoma.

Skin Cancer: Body Mole Map

Skin Cancer: Body Mole Map

Key Points
  • Melanoma incidence rates have doubled from 1982 to 2011.
  • In 2011, in the United States, there were 65,647 cases of melanoma and 9,128 deaths.
  • The annual cost of treating newly diagnosed melanomas is projected to triple by 2030.
  • Melanoma can be prevented by reducing ultraviolet radiation exposure from sunbathing and indoor tanning and increasing the use of sun protection.
  • A comprehensive national skin cancer prevention program could avert 230,000 melanoma cases and $2.7 billion in initial year treatment costs from 2020 to 2030.
  • Additional information available at https://www.cdc.gov/vitalsigns.

Introduction

Skin cancer is the most common form of cancer in the United States, and melanoma is responsible for the most skin cancer deaths with over 9,000 each year. An individual dying from melanoma loses an average of 20.4 years of potential life. Total melanoma treatment costs are about $3.3 billion annually in the United States. Melanoma is the fifth most common cancer for men, and is the seventh most common cancer for women. More than 90% of melanoma cases in the United States are attributed to skin cell damage from ultraviolet (UV) radiation exposure.

The National Cancer Institute has collected photographs of 29 different pigmented skin lesions, presented as case studies, to help patients and other individuals recognize common moles, dysplastic nevi (DN), and melanomas that started from DN. Each case series shows changes in an individual pigmented lesion (mole) over time and across the various mole changes typically seen in individuals from U.S. melanoma-prone families.

What are moles, dysplastic nevi and melanoma?

  • Common MolesA non-cancerous growth on the skin that is formed by a cluster of melanocytes (cells that make a substance called melanin, which gives color to skin and eyes). A mole may be dark or flesh-colored and may be raised from the skin.
  • Dysplastic Nevi (DN) – A type of mole that may develop into a type of skin cancer called malignant melanoma. They look different from common moles. A DN is often larger with borders that are not easy to see. Its color is usually uneven and can range from pink to dark brown. Parts of the mole may be raised above the skin surface.
  • MelanomaA form of cancer that begins in melanocytes (cells that make the pigment melanin). It may begin in a mole (skin melanoma), but can also begin in other pigmented tissues, such as in the eye or in the intestines.

Who is the intended audience?

  • The pictures used in this article were taken over more than a 35-year period. They show moles and melanomas from participants enrolled in the NCI Familial Melanoma Study.
  • The pictures show examples of the variability in pigmented lesions in U.S. melanoma-prone families.
  • Because most of the study participants are Caucasian, the nevi and melanomas shown are not representative of those found in individuals with darker skin.
  • Melanomas and lesions suspicious for melanoma vary widely in appearance; these pictures should not be used to diagnose melanoma.
  • NCI does not provide medical advice to users of its website.
  • Consult with a qualified health care provider if you have concerns about your skin.

About the photos

  • The photographs have variations in color due to differences in photography equipment, lighting, and skin color of the individual (e.g. sunburned or suntanned).
  • Photographs are standardized to ease viewing.
  • Rulers show size of the moles and melanomas in millimeters.

This study only includes individuals in U.S. melanoma-prone families who are at high-risk of developing this form of skin cancer. As shown in Figure 1, Caucasians are at the highest risk of developing melanoma. To date, this study has not identified or enrolled any non-Caucasian families.  Therefore, this tool does not provide images representative of other ethnicities.

Figure 1: Melanoma incidence by race/ethnicity in the U.S. Surveillance, Epidemiology and End Results Program 1975-2012

chart

Reference: Howlader N, Noone AM, Krapcho M, Garshell J, Miller D, Altekruse SF, Kosary CL, Yu M, Ruhl J, Tatalovich Z, Mariotto A, Lewis DR, Chen HS, Feuer EJ, Cronin KA (eds). SEER Cancer Statistics Review, 1975-2012, National Cancer Institute. Bethesda, MD, https://seer.cancer.gov/csr/1975_2012/ , based on November 2014 SEER data submission, posted to the SEER web site, April 2015
Data points are not included for clarity of presentation, but may be found at https://seer.cancer.gov/csr/1975_2012/sections.html Figure 16.2.

Where can I find information on Skin Cancer in other Ethnicities?

  • National Cancer Insititure – “Anyone Can Get Skin Cancer”, includes images of skin cancer in people with darker skin
  • Skin Cancer Foundation – “Skin Cancer and Skin of Color”

Where can I find information about Non-Melanoma Skin Cancer?

This collection does not include any pictures of non-melanoma types of skin cancer (e.g. basal cell or squamous cell), since they arise from different cell types in the skin they look very different from melanoma. For information on those types of skin cancer, visit the following websites: https://www.cancer.gov/types/skin & https://www.cancer.org/cancer/cancercauses/sunanduvexposure/skin-cancer-facts.

What information does this resource provide?

This resource provides information about and examples of: common moles, dysplastic nevi (atypical moles) and melanoma. This collection does not include any pictures of non-melanoma types of skin cancer (e.g. basal cell or squamous cell). Since they arise from different cell types in the skin, they look very different from melanoma. Additional information, including resources for other types of non-melanoma skin cancer, can be found in the Intended Audience section.

The “ABCDE” rule describes the features of early melanoma. These features are:

Asymmetry – The shape of one half does not match the other half.

Asymmetry

Border that is irregular – The edges are often ragged, notched, or blurred in outline. The pigment may spread into the surrounding skin.

Border

Color that is uneven – Shades of black, brown, and tan may be present. Areas of white, gray, red, pink, or blue may also be seen.

Color

Diameter – There is a change in size, usually an increase. Melanomas can be tiny, but most are larger than 6 millimeters wide (about 1/4 inch wide).

Diameter

Evolving – The mole has changed over the past few weeks or months.

Evolving

A common mole is a non-cancerous growth on the skin that is formed by a cluster of melanocytes (cells that make a substance called melanin, which gives color to skin and eyes). A mole may be dark or flesh-colored and may be raised from the skin. Most adults have between 10 and 40 common moles. These growths are usually found above the waist on areas exposed to the sun. Common moles are seldom found on the scalp, breast, or buttocks.

  • Common moles are growths on the skin that develop when pigment cells (melanocytes) grow in clusters; also called “common nevi” or “common acquired nevi”.
  • Appearance (using ABCDE rules)
    • Asymmetry: Usually symmetrical, round or oval.
    • Border: Usually have a distinct edge that separates it from the rest of the skin.
    • Shape: Usually round or oval.
    • Color: Usually have an even color; may be pink, tan, brown, black (in deeply pigmented individuals), or a color that is very close to a person’s normal skin tone.
    • Diameter: Usually less than 5 millimeters or about ¼ inch (smaller than a pencil eraser).
    • Evolving: Moles go through a life-cycle. Often they start as small freckle-like spots; gradually round up and form a bump; may lighten, become flesh-colored; become less elevated, flatten and eventually disappear. Life-cycle is a gradual process typically over many years. Some moles do not go through the entire life-cycle. Vast majority are stable and then disappear; rarely develop into melanoma (or cancer).

Mole Case 1: Stable normal mole

Over thirty years, this common mole remained the same size (about 6 millimeters), color, shape, and elevation (height) above the skin.

“ABCDE” features:

  • Asymmetry none
  • Border no irregularity
  • Color even
  • Diameter 6 millimeters
  • Evolving not changing

Clinical Diagnosis Common acquired nevus

M1M2

M3

This picture shows a large mole which is slightly bigger than a pencil eraser. The mole is a smooth light tan and pink bump with normal skin markings (lines) present on the entire surface. Unlike most moles, there are some hairs growing from the center and edges of the mole. All of the features of this mole are normal.

Recognizing the ABCDE Features

Common Moles

Dysplastic Nevi (DN)

Melanomas

A dysplastic nevus (DN) is a mole that may develop into malignant melanoma, a skin cancer starting in pigment cells. DN look different from common moles. DN are often larger than common moles (more than 5 millimeters) and have borders that are not easy to see. Their color is usually uneven and can range from pink to dark brown. Similar to common moles, parts of the DN may be raised above the skin surface. Some doctors use the term “atypical mole” to refer to DN.

  • The word “dysplastic” in its name refers to the look and pattern of cells in the nevi as they appear under a microscope.
  • Appearance (according to ABCDE rules)
    • Asymmetry: irregular shape
    • Border: indistinct (blurry) borders
    • Color: mixture of colors (tan, brown, and red or pink shades)
    • Diameter: greater than 5 millimeters or ¼ inch and have a flat part
    • Evolving: Majority are stable and then disappear; typically start to show these features when small and show all features by the time they reach the size of most moles; become larger than most moles and eventually disappear.
  • The “ABCDE” rules were made for identifying early melanoma, but can also be used to describe DN.
  • Clinicians use the number of DN to identify some individuals who are at increased risk of developing melanoma.
  • DN most likely found on sun-exposed areas, especially intermittently exposed, such as the back, but are also frequent on chest, arms and legs.
  • Approximately 10% of adult populations of northern European descent have at least one DN.
  • DN are frequently found in melanoma-prone families in North America, Europe, and Australia.
  • Melanomas may develop from DN.
  • Risk of melanoma is high for people who have a large number of DN; especially high for people with a family history of both DN and melanoma.

All Cases

Stable and Fading

Evolving Toward Melanoma

Examples

Case 1

case1

Over five years, this dysplastic nevus more than doubled in size, increasing from 3 millimeters to 10 millimeters wide. The color lightened from dark brown to very light in the center and reddened around the edges. The shape became more irregular and the borders became more indistinct. The mole was mostly flat but slightly raised in the center, and then became flatter. The mole was removed because it continued to change in color and the patient reported that it had been itching.

Case 2

case2

Over seventeen years, this DN increased in size to 8 millimeters and then decreased to 4 millimeters. The nevus went from reddish brown, partially flat with an irregular outline and indistinct borders to light tan and barely visible. The large papule (bump) in the center flattened.

Case 3

case3

Over twenty-six years, this DN grew from 14 millimeters wide to about 17 millimeters, and then decreased to 14 millimeters. The mole contained shades of tan to dark brown, red and pink, but as the mole became smaller it faded considerably to light pink. The lighter area in the right lower portion became a flesh-colored almost flat bump that was barely visible. The irregular scalloped-shaped outline filled in as the nevus grew into a more irregular shape. Later the mole started fading and became less irregular.

Case 4

case4

Over twenty-two years, these two mostly flat DN with irregular and indistinct outlines were stable and then regressed (faded). Both nevi were approximately 5 millimeters wide, and after several years, decreased to about 4 millimeters. Both nevi had slight mixtures of tan, brown, and red shades which became more uniform. Both nevi faded; the “B” nevus became flat and barely visible.

Case 5

case5

Over eight years, this DN increased in diameter from 4 millimeters to 7 millimeters. The mixture of tan to dark brown colors lightened and then darkened. The partially flat mole with indistinct borders had a slightly irregular outline which became more irregular. The mole was removed because it was getting darker (after having lightened) and was growing slightly larger.

Case 6

case6

Over four and a half years, this DN increased in diameter from 8 millimeters to 9 millimeters. The mole is partially flat and has an irregular shape and indistinct border. It contains a mixture of tan to dark brown colors which lightened and then darkened. The upper central and right side lightened considerably with an arc of very light color across the central portion. The shape became more irregular as the pigment receded (color faded). Then, much of the nevus darkened considerably and a new area of very dark brown color developed that extends inwardly at the 4 o’clock to 5 o’clock position. The mole was removed because it had changed in color over the past year.

Melanomas

Melanoma is a form of cancer that begins in melanocytes (cells that make the pigment melanin). It may begin in a mole (skin melanoma), but infrequently can also begin in other pigmented tissues, such as in the eye or the intestines. Melanoma is potentially dangerous because it can spread to nearby tissues and other parts of the body, such as the lung, liver, bone, or brain. The earlier that melanoma is detected and removed, the more likely that treatment will be successful.

  • A type of skin cancer that begins in melanocytes (cells that make the pigment melanin).
  • Early, thin melanomas are curable by minimal surgery alone.
  • Advanced melanomas may spread to others parts of the body; treatments such as additional surgery, chemotherapy, radiation therapy, immunotherapy and/or new types of treatment being tested in clinical trials may be used.
  • Appearance of early melanoma (according to ABCDE rules)
    • Asymmetry: Often irregular and asymmetrical (the shape of one half does not match the other half).
    • Border: Usually irregular. Edges often ragged, notched, or blurred in outline. The pigment may spread into the surrounding skin.
    • Color: Usually uneven in color. Shades of black, brown, and tan may be present. May also have areas of white, gray, red, pink, or blue.
    • Diameter: Change in size, usually an increase. Melanomas can be tiny, but most are larger than 6 millimeters wide (about ¼ inch wide). The surface may appear scaly.
    • Evolving: The mole has changed in size, shape, and/or color over the past few weeks or months. Development of a new mole that has any of the ABCDE features in an area of previously normal skin.
  • Melanomas can vary greatly in how they look. Many show all of the “ABCDE” features; however, some may show only one or two of those features.

Warning Signs

Guidelines for Individuals at Increased Risk of Melanoma

Examples

Case 1

case1a

A new and unusual mole developed on the arch of the foot in an area of skin that was previously normal. The mole steadily increased in size and irregularity. It was 10 millimeters in diameter, and larger and more irregular than any of the moles nearby. The mole was mostly flat with an irregular darker border, and a mixture of light brown to very dark brown with some lighter color in the center. It was removed because it displayed several of the warning signs for melanoma (changes in size, color, and shape).

Case 2

case2a

Over two years, this DN changed in size, color, shape and surface. It was predominantly flat with some tiny bumps in the center, and uniformly tan with a triangular shape and indistinct borders. The nevus then enlarged slightly to 6 millimeters by 5 millimeters and developed a new black slightly raised area and a fine scale on the surface. The mole was removed because it was changing in ways highly suspicious for melanoma.

Case 3

case3a

Two relatively small nevi were on the left abdomen at about 4 o’clock from the navel. Two years later, the mole closer to the navel had become very prominent and was circled as #60. (The smaller, more distant mole did not change.) The nevus was 8 millimeters in diameter. It had very indistinct borders, an irregular outline, and an asymmetric shape. The color varied from reddish dark brown to a very dark brown in the center portion. The lesion was removed because it was changing in ways very suspicious for melanoma (rapid growth, dark coloration, and asymmetric shape).

Case 4

case4a

The patient reported that the mole was new and had grown much larger during the previous six months. The mole is large (7 millimeters in diameter), and contains a mixture of reds and browns. The area of very dark brown color in the right central part is especially concerning in a patient with very fair skin. The borders are indistinct and quite irregular. The mole is larger, darker, and more irregular than any of the moles nearby. The mole was removed because it was new, and had changed in size, color, and shape during a very short period of time.

Case 5

case5a

The DN of interest (marked with an arrow and then circled as #30) was stable and appeared mainly unchanged for many years. The DN was partially flat and had an irregular outline and indistinct borders. It contained multiple shades of tan and brown. After a long period of relative stability, over two years, it increased in size to about 8 millimeters in diameter and darkened when most other moles had faded. The mole was removed five months after the picture shown in image 5 because it continued to darken over a short period of time.

Case 6

case6a

Over two and a half years, the small tan mole of interest developed into a DN which changed in size, color, shape and surface. It grew to about 8 millimeters in diameter. A very dark brown portion developed at top of the mole. Then most of the rest of the mole darkened considerably while the central area lightened greatly. It was darker than all of the other moles and quite irregular in shape. The mole was removed because it was changing in ways suspicious for melanoma.

Conclusion

While cancer of the skin is the most common form of cancer, it is also the most preventable.  One can reduce one’s risk of skin damage and skin cancer by seeking shade under an umbrella, tree, or other shelter before you need relief from the sun. Your best practice to protect your skin is to use sunscreen or wear protective clothing when you’re outside—even when you’re in the shade.  Prevention practices, regular self-exams and having one’s doctor exam any mole changes are the keys to living a skin cancer free life.

Sentry BioPharma Services offers temperature-sensitive biological product management to pharmaceutical companies, hospitals and organizations with need for validated  GMP storage, labeling, kitting and temperature-sensitive drug distribution services.  For more information about how Sentry’s GMP services can help protect the integrity and delivery of your biological products to patients, contact Sentry via email or by phone at 1-866-757-7400.

NIH: Increased Physical Activity Associated with Lower Risk of 13 Types of Cancer

Sentry BioPharma Services provides oncology product management, global drug distribution, GMP storage and specialized services like pharmaceutical labeling, packaging and kitting.  Sentry plays a critical role in protecting temperature-sensitive product safety, identity, strength, purity and quality (SISPQ) for both cancer clinical trials and commercial drug distribution for a wide range of pharmaceutical and biotechnology clients.  With this in mind, the most successful cancer drugs are no match for avoidance of cancer altogether.  Therefore, we are sharing this article from the National Institute for Health (NIH) concerning a new study which links physical exercise with lower cancer rates. 

A new study of the relationship between physical activity and cancer has shown that greater levels of leisure-time physical activity were associated with a lower risk of developing 13 different types of cancer. The risk of developing seven cancer types was 20 percent (or more) lower among the most active participants (90th percentile of activity) as compared with the least active participants (10th percentile of activity). These findings, from researchers at the National Cancer Institute (NCI), part of the NIH, and the American Cancer Society (ACS), confirm and extend the evidence for a benefit of physical activity on cancer risk and support its role as a key component of population-wide cancer prevention and control efforts. The study, by Steven C. Moore, Ph.D., NCI, and colleagues, appeared May 16, 2016, in JAMA Internal Medicine.

Hundreds of previous studies have examined associations between physical activity and cancer risk and shown reduced risks for colon, breast, and endometrial cancers; however, results have been inconclusive for most cancer types due to small numbers of participants in the studies. This new study pooled data on 1.44 million people, ages 19 to 98, from the United States and Europe, and was able to examine a broad range of cancers, including rare malignancies. Participants were followed for a median of 11 years during which 187,000 new cases of cancer occurred.

The investigators confirmed that leisure-time physical activity, as assessed by self-reported shutterstock_426808351surveys, was associated with a lower risk of colon, breast, and endometrial cancers. They also determined that leisure-time physical activity was associated with a lower risk of 10 additional cancers, with the greatest risk reductions for esophageal adenocarcinoma, liver cancer, cancer of the gastric cardia, kidney cancer, and myeloid leukemia. Myeloma and cancers of the head and neck, rectum, and bladder also showed reduced risks that were significant, but not as strong. Risk was reduced for lung cancer, but only for current and former smokers; the reasons for this are still being studied.

“Leisure-time physical activity is known to reduce risks of heart disease and risk of death from all causes, and our study demonstrates that it is also associated with lower risks of many types of cancer,” said Moore. “Furthermore, our results support that these associations are broadly generalizable to different populations, including people who are overweight or obese, or those with a history of smoking. Health care professionals counseling inactive adults should promote physical activity as a component of a healthy lifestyle and cancer prevention.”

Leisure-time physical activity is defined as exercise done at one’s own discretion, often to improve or maintain fitness or health. Examples include walking, running, swimming, and other moderate to vigorous intensity activities. The median level of activity in the study was about 150 minutes of moderate-intensity activity per week, which is comparable to the current recommended minimum level of physical activity for the U.S. population.

There are a number of mechanisms through which physical activity could affect cancer risk. It has been hypothesized that cancer growth could be initiated or abetted by three metabolic pathways that are also affected by exercise: sex steroids (estrogens and androgens); insulin and insulin-like growth factors; and proteins involved with both insulin metabolism and inflammation. Additionally, several non-hormonal mechanisms have been hypothesized to link physical activity to cancer risk, including inflammation, immune function, oxidative stress, and, for colon cancer, a reduction in time that it takes for waste to pass through the gastrointestinal tract.

Most associations between physical activity and lower cancer risk changed little when adjusted for body mass index, suggesting that physical activity acts through mechanisms other than lowering body weight to reduce cancer risk. Associations between physical activity and cancer were also similar in subgroups of normal weight and overweight participants, and in current smokers or people who never smoked.

The study was a large-scale effort of the Physical Activity Collaboration of NCI’s Cohort Consortium, which was formed to estimate physical activity and disease associations using pooled prospective data and a standardized analytical approach.

“For years, we’ve had substantial evidence supporting a role for physical activity in three leading cancers: colon, breast, and endometrial cancers, which together account for nearly one in four cancers in the United States,” said Alpa V. Patel, Ph.D., a co-author from the American Cancer Society. “This study linking physical activity to 10 additional cancers shows its impact may be even more relevant, and that physical activity has far reaching value for cancer prevention.”

The National Cancer Institute leads the National Cancer Program and the NIH’s efforts to dramatically reduce the prevalence of cancer and improve the lives of cancer patients and their families, through research into prevention and cancer biology, the development of new interventions, and the training and mentoring of new researchers. For more information about cancer, please visit the NCI website at https://www.cancer.gov or call NCI’s Cancer Information Service at 1-800-4-CANCER.

About the National Institutes of Health (NIH): NIH, the nation’s medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit www.nih.gov.

Reference

Moore SC, et al. Leisure-time physical activity and risk of 26 types of cancer in 1.44 million adults. JAMA Internal Medicine. May 16, 2016. DOI:10.1001/jamainternmed.2016.1548.

Sentry BioPharma Services offers temperature sensitive biological product management to pharmaceutical companies, hospitals and organizations with need for validated  GMP storage and temperature-sensitive drug distribution services.  For more information about how Sentry’s GMP storage can help protect the integrity of your biological products in general, contact Sentry via email or by phone at 1-866-757-7400.