Lung Cancer Awareness Month

Lung Cancer awareness efforts focus on smoking prevention

By

Lung Cancer Awareness Month is dedicated to educating the public about the prevalence of the disease in the United States, and providing resources on prevention, screening and treatment.

According to the American Cancer Society (ACS), lung cancer will kill more than 140,000 people in 2019, making it by far the leading cause of cancer death among both men and women. It is the second most common cancer in both men and women (not counting skin cancer). For men, prostate cancer is the only cancer more common, while in women breast cancer is more common.

Smoking is the leading cause of lung cancer. The ACS reports 80% of lung cancer deaths are caused by smoking.1 However, non-smokers can also develop the disease. This could be caused by exposure to radon, secondhand smoke, air pollution, asbestos, diesel exhaust or other chemicals.

PREVENTION IS KEY

With such a high percentage of lung cancer cases linked to smoking, efforts to reduce the prevalence of the disease are largely focused on kicking the tobacco habit.

“Smoking continues to be the #1 most preventable cause of death and disease in the U.S.,” says Kerri Thompson, Public Health Educator for the Knox County Health Department (KCHD) in Knoxville, Tenn. “It kills so many people and it’s something that can be prevented.”

Thompson spearheads KCHD’s tobacco prevention programs, which focus on three main areas: Youth Prevention, Secondhand Smoke Reduction and Smoking Cessation (quitting). Through educational programs designed to teach children about the dangers of smoking, KCHD hopes to dramatically reduce tobacco product usage in our next generation.

“We’re trying to change the trajectory so, hopefully, we can have an impact on lung cancer,” Thompson notes. “Having (our youth) not use tobacco or not be addicted to nicotine in the first place is really key to addressing the huge impact that smoking has on society.”

Knox County’s programs aimed at youth education actually have a trickle-down effect, impacting its Secondhand Smoke Reduction and Smoking Cessation efforts, as well. Children tend to share resources they receive in school with their parents in hopes they will then try to quit. One of these resources is the Tennessee Tobacco Quitline. This is a free service that offers personalized support from counselors who are trained to help you kick the habit. More resources to help you quit smoking can be found at Smokefree.gov.

When it comes to quitting, Thompson says relapse is common, so persistence is very important. “When someone quits smoking, on average it takes seven to 10 times for someone to quit for good. Many people think since they’ve been smoking for years, the damage is already done, so what’s the point in quitting.” However, if there’s one thing she hopes people take away from Knox County’s education and prevention efforts, it’s this – “It’s never too late to quit.”

LUNG CANCER SCREENING CAN SAVE LIVES

According to the National Cancer Institute (NCI), risk factors for lung cancer include tobacco use, secondhand smoke, family history, HIV infection and environmental risks like exposure to asbestos, radon  or other substances. If you believe you may be at risk for lung cancer, you should start by speaking to your doctor. A general practitioner can perform an assessment, then offer advice for your next step. This could be a referral to a pulmonologist or oncologist, or a prescription for nicotine replacement therapy. Since early detection is so important, at-risk individuals may also benefit from a lung cancer screening.

The NCI says the most effective type of screening is a low-dose spiral Computed Tomography (CT) scan. In its National Lung Screening Trial, the NCI studied people between 55 and 74 years old who had smoked at least one pack of cigarettes a day for 30 years or more. They compared low-dose spiral CT scans with another type of screening, chest x-rays. Researchers observed a 20% lower risk of dying from lung cancer in people who received low-dose spiral CT scan screenings.2

Fortunately, there are resources available to help people get screened. The American Lung Association (ALA) offers an online quiz to help you determine whether you are at risk. The ALA can also help you find information about insurance coverage and screening facilities near you.

In an effort to make lung cancer screenings more accessible, CHI Memorial Hospital in Chattanooga, Tenn. brings low-dose CT scans into the community with its Breathe Easy mobile lung CT coach. The bus serves counties from three different states in the Southeast.

PROTON THERAPY AS A TREATMENT

Given the serious prognosis of lung cancer, it’s important to evaluate all your treatment options before making any decisions. Treatment for lung cancer is based mainly on the type (non-small cell vs. small cell) and the stage of the cancer. Other factors like a person’s health and lung function should also be considered. Treatment options may include surgery, chemotherapy and radiation therapy.

Doctors and scientists have been studying the results of proton therapy in the treatment of non-small cell lung cancer (NSCLC). One study in particular showed that patients with Stage 3 NSCLC who were treated with proton therapy experienced lower rates of lung and esophagus inflammation compared to patients treated with traditional (x-ray/IMRT) radiation.3

Proton therapy for lung cancer treatment is non-invasive and usually painless. Physicians provide doses of radiation to specific areas, controlling the depth of the protons emitted and reducing the impact on the surrounding tissue. Provision CARES Proton Therapy uses a technique known as pencil beam scanning, which provides precise dose of radiation to targeted areas, resulting in a decreased risk of side effects. Proton therapy decreases the risk of damage to healthy tissue and organs surrounding the cancer. This is because the unique physical properties of protons allow the radiation dose to better conform to your cancer, avoiding unnecessary radiation to nearby areas. This is especially important for lung cancer treatment because the tumor may be close to your heart, healthy lung and other critical organs.

Since each cancer diagnosis is unique, we encourage anyone seeking treatment options to speak with one of our Cancer Care Experts to see if proton therapy is right for you.

 

Sources

  1. American Cancer Society. What Causes Lung Cancer? Read More
  2. National Cancer Institute. National Lung Screening Trial. Read More
  3. National Cancer Database Analysis of Proton Versus Photon Radiaion Therapy in NSCLC. Read More
  4. American Cancer Society. Key Statistics for Lung Cancer. Read More
  5. Proton Beam Radiotherapy and Concurrent Chemotherapy for Unresectable Stage III Non–Small Cell Lung Cancer Final Results of a Phase 2 Study. Read More
  6. High-dose hypofractionated proton beam radiation therapy is safe and effective for central and peripheral early-stage non-small cell lung cancer: results of a 12-year experience at Loma Linda University Medical Center. Fractionation 10 for PBT vs 6-8 weeks for IMRT. Read More

 

Provision CARES Proton Therapy Orlando announces arrival of cyclotron in Hamlin development

By

WINTER GARDEN, Fla. — Provision CARES Proton Therapy Orlando is under construction in the Hamlin development in Southwest Orange County. The center will offer one of the most promising new cancer therapies available, proton therapy; and will utilize the latest advancement in proton therapy systems, the ProNova SC360 manufactured by ProNova Solutions, LLC located in Maryville, Tennessee.

On Wednesday, November 20, one of the key components of the proton therapy system, the cyclotron, will travel from Cape Canaveral to Hamlin on a flatbed truck along a FDOT pre-approved route. The cyclotron travel time is expected to take approximately four hours before arrival at Hamlin. The cyclotron generates the proton beam that is used to treat patients through the ProNova SC360 system. Delivery of the cyclotron is a milestone event in the construction of the proton therapy treatment center.

Once the cyclotron has arrived at the proton center, the Provision team, which includes personnel from ProNova Solutions, Sumitomo Heavy Industries, Ltd., Barnhart Crane & Rigging Co., will then begin the rigging and installation of the cyclotron into the new proton therapy center building. Following installation of the cyclotron, installation, testing and commissioning of the ProNova SC360 will continue as the proton therapy center building is completed.

The cyclotron accelerates a proton beam that is incorporated into the ProNova SC360 delivery system and then used to deliver this advanced cancer treatment. This treatment provides a means to treat the cancer and spare the patient with fewer side effects.

The Provision CARES Proton Center is located in the 17-acre Provision CARES Cancer Center in Hamlin and is a member of the Provision CARES Cancer Network. Provision CARES Cancer Centers with Proton Therapy are also located in Knoxville, TN, Nashville, TN and recently announced Kansas City, KS, where all Provision centers provide comprehensive and integrated diagnostic and therapy services for all patients and all physicians who need those services.

Provision’s leadership team, cancer center partners, and media will be viewing the cyclotron delivery from the construction site at 15775 New Independence Parkway, Winter Garden, Florida.

ABOUT PROTON THERAPY

Proton therapy is an advanced form of radiation therapy that uses a single beam of high-energy protons to treat various forms of cancer. Proton therapy treats tumors by directing protons into the tumor site destroying cancerous cells. Unlike with other forms of radiation, radiation oncologists can control both the dose and range of protons, which allows the maximum deposition of energy into the tumor. This reduces damage to nearby healthy tissue and limits negative side effects. Proton treatment can be combined with chemotherapy and biological treatments, depending on the cancer type, to provide better outcomes with less tissue damage. According to the National Association of Proton Therapy, there are currently 35 proton therapy centers in operation.

ABOUT PROVISION’S PRONOVA SYSTEM

An affiliate of Provision Healthcare, ProNova Solutions, LLC is committed to making proton therapy accessible to a greater number of patients and physicians worldwide. ProNova was founded by former leaders of CTI Molecular Imaging, which brought positron emission tomography (PET) technology out of the laboratory and made it a clinical reality for millions of cancer patients. Today the same team is redefining cancer treatment once again with the introduction of the first and only superconducting 360-degree compact proton therapy system. It is the only proton therapy system developed in a clinical setting, benefitting from continuous input from physicians, medical physicists, and therapists during design and development. The system includes state-of-the-art features such as pencil beam scanning and advanced imaging with cone-beam CT, all in a compact design.

ABOUT PROVISION HEALTHCARE

Provision Healthcare, LLC was formed in 2005 with the purpose of developing innovative healthcare solutions focused on improving patient care and clinical outcomes and developing support for research, educational and charitable causes. Provision has developed a unique, comprehensive expertise in proton therapy including Provision’s patient focused “Culture of Care” that distinguishes Provision from other proton and cancer center developers and operators that have a much narrower focus. The combination of unique expertise and an innovative, entrepreneurial approach continues to propel Provision towards a position of industry leadership with respect to both cancer care and proton therapy.

National Radiologic Technology Week honors radiation therapy and medical imaging professionals..

How Radiation Therapy and Medical Imaging help shape cancer patient experience

By

Every year in early November, the American Society of Radiologic Technologists (ASRT) celebrates National Radiologic Technology Week. It’s an opportunity to recognize the crucial role that medical imaging and radiation therapy professionals play in patient care and safety. The celebration takes place during the week of November 8, which is the day Wilhelm Conrad Roentgen discovered the x-ray in 1895.

The Radiologic Technologists (R.T.s) at Provision CARES Proton Therapy are an integral part of our team. They are educated in anatomy, patient positioning, examination techniques and radiation safety, allowing them to perform highly skilled and precise procedures. Most importantly, though, they are on the frontlines of caregiving during treatment. All of our R.T.s are passionate about Provision’s Culture of CARE, putting the patient’s comfort, safety and overall experience first.

To show our appreciation for the Radiologic Technology (Rad Tech) staff at Provision, we’re taking a closer look at the industry to which they’ve devoted their lives, and how their jobs help shape the cancer patient experience.

WHAT IS RADIOLOGIC TECHNOLOGY?

Following Roentgen’s discovery, the x-ray gained popularity as a way to diagnose and treat illness in the early 1900s. The x-ray machine remained the primary tool of medical imaging until the 1960s and 1970s, when newer procedures like computed tomography, mammography and sonography became commonplace in the healthcare industry1. The x-ray is also a traditional tool used for radiation therapy to treat cancer. In the 1950s, however, proton radiation therapy for cancer treatment was introduced. Since then, studies have shown proton therapy avoids unnecessary radiation to nearby healthy tissue and organs, reducing the risk of side effects2. There are now more than 30 proton therapy centers in the United States.

Modern Radiologic Technology covers two main areas – medical imaging and radiation therapy. According to the ASRT, there are several practices in which an R.T. can specialize, including general radiography, computed tomography (CT), mammography, magnetic resonance imaging (MRI), radiation therapy and others.

In the medical imaging field, an R.T. is responsible for making sure the patient is properly positioned for a quality diagnostic image. Rad Techs in medical imaging are typically specialists, like Radiographers, Mammographers, Sonographers, MRI techs or CT Techs.

A Radiologic Technologist may also choose the radiation therapy path. Radiation Therapy is the administration of targeted doses of radiation to a patient’s body to treat cancer or other diseases. In this case, an R.T. would be a member of the Radiation Oncology team and could work as a Medical Dosimetrist or Radiation Therapist.

RADIOLOGIC TECHNOLOGY AT PROVISION

Radiologic Technology is part of the patient experience from diagnosis all the way through treatment and the cancer care experts at Provision can help coordinate each step of the process. Of course, radiation therapy is at the heart of what we do – treating cancer with proton therapy – and we are proud of the work our Radiation Therapists do and the passion they show for everyone who walks through our doors. Along the course of your treatment, you may also meet MRI Techs, CT Techs, Medical Dosimetrists and other radiologic specialists.

Radiation Therapy team from Provision CARES Proton Therapy NashvilleAll of these Radiologic Technology roles are highly specialized and require quality education and experience. Most importantly, though, each of our R.T.s believes in Provision’s Culture of CARE. It is our mission to respect the dignity and value of every person by providing an environment of compassion, sensitivity and thoughtful consideration.

The Rad Tech staff at Provision is also dedicated to increasing awareness about the benefits of proton radiation therapy. In fact, the ASRT Foundation recently recognized Justin Pigg, Manager of Radiation Therapy at Provision CARES Proton Therapy Nashville, with its International Speakers Exchange Award for his efforts to promote the sharing of research, best practices and professional development in the radiologic sciences. As a recipient of this award, Pigg presented “Technical Aspects of Proton Therapy” at a Radiologic Technology conference in Nova Scotia.

THE BENEFITS OF PROTON RADIATION THERAPY

Proton therapy for cancer treatment has become a trusted method for precisely targeting tumors and reducing the risk of side effects. The advantage of proton therapy is distinct from traditional radiation therapy because the timing and dosage of proton energy can be specifically controlled. Since a proton beam can conform to a tumor’s shape and size, maximum beam energy is deposited directly into the tumor, decreasing the risk of damage to surrounding tissue and organs. Protons have unique characteristics that prevent radiation from traveling beyond the tumor. Contrastingly, traditional radiation therapy deposits energy from x-ray beams along the entire path of the beam. Radiation is absorbed from the time the beam enters the body until it exits on the other side of the tumor area.

Provision CARES Proton Therapy uses the most precise form of proton therapy, called pencil beam scanning. Pencil beam scanning provides even greater customization and precision in cancer treatment. Physicians use a proton beam only millimeters wide to target the tumor area with the highest radiation dose, while controlling both the depth and the position of the beam and planning the exact point at which the proton beam stops inside the body. This means there will be no exit dose, sparing even more healthy tissue and organs from unnecessary radiation.

Proton therapy is beneficial for treating patients with a localized tumor where cancer has not spread to other parts of the body, or in situations where tumors cannot be removed with surgery. It may also be an option if a patient requires radiation therapy in addition to surgery or chemotherapy. We encourage you to speak with one of cancer care experts to find out if proton therapy is right for you.

Ultimately, Provision CARES Proton Therapy is passionate about caring for anyone who is fighting cancer. In honor of National Radiologic Technology Week, thank you to all of our Rad Techs who help us live up to that mission.

 

Sources:

  1. American Society of Radiologic Technologists. History of the American Society of Radiologic Technologists. https://www.asrt.org/main/about-asrt/asrt-history
  2. Baumann BC, Mitra N, Harton JG, Xiao Y, Wojcieszynski AP, Gabriel PE, Zhong H, Geng H, Doucette A, Wei J, O’Dwyer PJ, Bekelman JE, Metz JM. Comparative effectiveness of proton therapy versus photon therapy as part of concurrent chemo-radiotherapy for locally advanced cancer. American Society of Clinical Oncology poster session. June 1, 2019.

 

proton therapy for breast cancer treatment

Proton Therapy for breast cancer treatment ‘safe and effective’ concludes new study

By

Proton therapy for breast cancer treatment is “safe and effective.” That’s the conclusion of a new study released in the Journal of Clinical Oncology, which highlighted proton therapy’s ability to control cancer cells with much less toxicity in the heart and lungs as compared to conventional (x-ray) radiation therapy.

“In our prospective trial of women with locally advanced breast cancer who required treatment of the internal mammary nodes, proton beam radiation therapy was safe and effective,” says Shannon M. MacDonald, MD, of Massachusetts General Hospital in Boston, and colleagues.

Breast cancer tumors usually occur in the lobules and ducts of the breast, which are used in the production and delivery of breast milk. Breast cancer is the most common cancer among women aside from skin cancer. Men are also susceptible to breast cancer, although the disease is rare among males.

As with other cancers, the best possible outcomes for breast cancer treatment come through early breast cancer care. Proton therapy has unique attributes that reduce radiation exposure to normal, healthy organs3,4. This is especially important in left-sided, node positive breast cancer patients (those who need the internal mammary nodes irradiated), as the cancer is close to critical organs such as the heart and the lungs.

How Massachusetts General Hospital conducted the study

Researchers enrolled 70 prospective patients with nonmetastatic breast cancer who required radiation therapy to the chest wall and regional lymph nodes. The average age of enrollees was 45, with patients ranging from 24 to 70 years old. The vast majority (91%) of evaluable patients had left-side breast cancer, and all but four patients had stage II-III disease. Only one patient did not receive chemotherapy in conjunction with proton radiation therapy.

The study, which lasted from 2011 to 2016, specifically chose patients whose treatment would include irradiation of the internal mammary nodes (IMNs). This made them suboptimal candidates for conventional radiation therapy, since exposure to the IMNs would also increase radiation to the heart and lungs. According to the study’s authors, that has been associated with an increased risk of cardiac events.

The benefits of proton therapy, however, significantly reduce exposure to the heart and lungs. It’s an advanced form of radiation therapy that precisely targets a tumor using a single beam of high-energy protons to kill cancer cells. Unlike conventional photons, which have almost no mass and extend beyond a tumor through the body, protons are relatively heavy and will hit their target – then stop. This spares nearby healthy tissues and organs from receiving unnecessary radiation.

Summary of the study’s results

Proton therapy for breast cancer treatment received high marks from this study. Of the 69 evaluable patients, the 5-year cancer recurrence rate was just 1.5% and the 5-year overall survival rate was 91%. Those positive results go hand-in-hand with low rates of severe side effects. Study authors reported no patient developed grade 3 pneumonitis (inflammation of the lungs) or grade 4 or higher toxicity in the lungs. They also reported no significant changes in cardiac function or key cardiac biomarkers.

Dr. MacDonald and colleagues concluded that “Proton beam radiation therapy (RT) for breast cancer has low toxicity rates and similar rates of disease control compared with historical data of conventional RT.”

Dr. Ben Wilkinson, MD, FACRO, Radiation Oncologist and Medical Director at Provision CARES Proton Therapy Knoxville says the findings of this study support the success he’s seen at Provision.

“Among mostly young women with left-sided breast cancer receiving regional nodal irradiation, proton therapy produces excellent target coverage with miniscule cardiac doses and low rates of lung toxicity,” Dr. Wilkinson says about the study’s conclusion. “When we treat breast cancer, those lymph nodes run very close to the heart. Proton therapy allows us to deliver the dose to the tumor site and spare the surrounding area – the heart, lung, chest wall, and even the esophagus.”

What’s next for proton therapy research?

The authors of the study from Massachusetts General Hospital say their findings open the door for more extensive studies in the future. “No early cardiac changes were observed,” they note, “Which paves the way for randomized studies to compare proton beam radiation therapy with standard radiation therapy.”

In fact, the results of the study bode well for a more comprehensive trial already underway to compare proton therapy with conventional x-ray therapy. The Radiotherapy Comparative Effectiveness (RADCOMP) Consortium Trial, which began in 2016 and will continue until at least 2022, is being conducted by the University of Pennsylvania, in conjunction with the Patient-Centered Outcomes Research Institute.

According to the U.S. National Library of Medicine, it is a pragmatic randomized clinical trial of patients with locally advanced breast cancer. More than 1,000 patients will be randomly assigned to receive either proton therapy or x-ray therapy. Each patient will have a 50-50 chance of getting into either treatment group. Both groups will be followed for at least 10 years after completing radiation therapy. The trial’s ultimate goal to is to study the patients’ quality of life outcome to help decide which is the best treatment option for future patients with breast cancer – proton therapy or x-ray therapy.

The Benefits of Proton Therapy for Breast Cancer Treatment

Proton therapy shows remarkable promise and advantages over conventional therapy in the treatment of breast cancer. It is a type of radiation that stops at a very specific point in the targeted tissue; conventional radiation continues beyond the tumor. In breast cancer, this means on average no radiation to the heart and on average 50% less radiation to the lung5 as compared with conventional radiation.

Proton therapy is extremely precise and therefore more effective at targeting cancerous cells without causing damage to surrounding breast tissue. It is not a substitute for a lumpectomy. Rather, it is used as an alternative to conventional radiation therapy. After surgery a breast cancer patient may receive 2-6 weeks of proton therapy.

Sources:

  1. Phase II Study of Proton Beam Radiation Therapy for Patients with Breast Cancer Requiring Nodal Irradiation. Journal of Medical Oncology
  2. Pragmatic Randomized Trial of Proton vs. Photon Therapy for Patients with Non-Metastatic Breast Cancer: A Radiotherapy Comparative Effectiveness (RADCOMP) Consortium Trial. ClinicalTrials.gov
  3. MacDonald S, Specht M, Isakoff S, et al. Prospective pilot study of proton radiation therapy for invasive carcinoma of the breast following mastectomy in patients with unfavorable anatomy – first reported clinical experience. Int J Radiat Oncol. 2012;84(Suppl 3):S113-S114. Abstract 281
  4. Moon SH, Shin KH, Kim TH, et al. Dosimetric comparison of four different external beam partial breast irradiation techniques: three-dimensional conformal radiotherapy, intensity-modulated radiotherapy, helical tomotherapy, and proton beam therapy. Radiother Oncol. 2009;90:66-73.
  5. Early Toxicity in Patients Treated with Postoperative Proton Therapy for Locally Advanced Breast Cancer. U.S. National Library of Medicine, National Institutes of Health

 

Experts Agree: Proton Therapy is an Excellent Choice for Treating Pediatric Cancers

By

The American Society for Radiation Oncology (ASTRO), the world’s premier organization in Radiation Oncology, states that “solid tumors in children are considered among the highest priority for proton therapy”in its Model Policy.  Based on this prioritization, a group of 24 internationally recognized leaders in the various specialties in oncology, convened in 2015 to define proton therapy’s role in pediatric cancers, identify which cases yield the most benefit from a limited resource, and set priorities for future development in the field.

(more…)

Esophageal Cancer Awareness Month

Proton Therapy for Esophageal Cancer

By

Content and information provided by Rebecca Bergeron, RN, BSN, OCN Director of Clinical Services for Provision CARES Proton Therapy Knoxville

Spring is here, and as flowers and trees bring forth new life and color, we are reminded that positive change is possible. Likewise, innovative therapies that have emerged over the years are offering hope to not only have a stronger fight against cancer, but to reduce treatment-related problems during and after the fight. April is Esophageal Cancer Awareness Month and proton therapy is our spring season in cancer treatment. (more…)

Maintaining a Healthy Nutritional Status When Diagnosed with Head & Neck Cancers

By

Content and information provided by Casey Coffey MS, RD, LDN Registered Dietician for Provision CARES Proton Therapy Knoxville

As we raise awareness of head & neck cancers during the month of April, it is important to be aware of the unique challenges that are at risk when diagnosed with head and neck cancer. Studies for patients who choose proton therapy treatment for head and neck cancers have shown less side effects during first 3 months after treatment and quicker return to normal function. The potential side effects for head and neck cancer patients make swallowing food and fluids difficult and sometimes painful. Malnutrition affects an estimated 40 – 80% of cancer patients – particularly those with gastrointestinal or head and neck cancers.

The four main nutritional goals for cancer patients include:

  • Strive to maintain a healthy weight
  • Consume foods and beverages for managing cancer and treatment-related side effects
  • Select and eat healthy foods that supply the body with fuel and nutrients for repair and healing
  • Reduce risk of cancer recurrence and the development of a second malignancy

Many patients do not realize the importance of nutrition while under treatment. Primary goals of nutrition therapy are to prevent or reverse nutrient deficiencies, preserve lean body mass, support the immune system, and minimize and manage the impact of nutrition related symptoms and side effects to maximize quality of life. Adequate nutrition is more than just maintaining body weight. The foods we eat contain nutrients necessary to support healing and restoration but also to support our healthy cells as well. Adequate nutrition has been shown to improve outcomes in cancer patients, improve strength and energy, avoid dose reduction or treatment breaks.

Make Every Bite Count.

Initially, it is recommended patients eat what they can tolerate while focusing on protein with each meal and including whole foods (minimizing the processed nature of foods). Why? Well, quality counts. High quality foods, which are those that are less processed, are more nutritious due to their higher nutritional value. As treatment progresses and possible side effects begin, the ability to swallow can become difficult. If difficulty to swallow becomes a problem for head and neck cancers, here are three ideas on how to maintain nutritional value through your diet:

  • Graze throughout the day on nutrient dense foods: Nutrient dense foods that have been fortified with protein and additional calories without adding volume and lots of sugar or highly processed foods. Some examples are olive oil, butter, coconut oil, coconut butter, peanut butter, heavy cream, half & half, or any nut butter.
  • Alter texture of foods to improve tolerance: focus on soft or smooth foods such as, bananas, watermelon, canned fruits, peach, pear, and apricot nectars, pureed or mashed vegetables, oatmeal, cooked cereal, cottage cheese, yogurt, milkshakes, custards, puddings, gelatin, macaroni and cheese, scrambled eggs, and ground meats.
  • Avoid irritating foods, such as, citrus fruits or juices, spicy or salty foods, pickled or vinegary foods, tomato-based foods (salsa, spaghetti sauce, and pizza), rough or dry foods, hot spices (pepper, chili powder, nutmeg, cloves, and curry).

For more information about how to overcome nutritional challenges when diagnosed with head & neck cancers or to learn about proton therapy, contact our CARE Team at 865-229-4689.

 

04-12-18_VolunteerAppreciation

Volunteer Appreciation in the “Volunteer State”

By

This week, April 15-21, Provision will celebrate Volunteer Appreciation Week by honoring our very own Proton Volunteer, Mrs. Sue. Sue and her husband retired to Knoxville from Washington, DC in 2001. She has been a volunteer for Provision CARES Proton Therapy Knoxville since 2016 and has been filling the proton center with extra joy and smiles ever since. (more…)

NAPT Blog

Provision CARE Proton Therapy Attends the 2018 NAPT Conference

By

Content and information provided by Talbott Paynter, Director of Business Development for Provision CARES Proton Therapy Knoxville

The National Association for Proton Therapy (NAPT) held its sixth annual NAPT Conference March 25-28, 2018, at The Scottsdale Resort at McCormick Ranch in sunny Scottdale, Arizona. Founded in 1990, the National Association for Proton Therapy is a nonprofit organization whose mission is to work collaboratively to:

  1. Raise awareness of the therapeutic benefits of proton therapy among patients, providers, payers, policymakers, and other stakeholders
  2. Ensure patient choice and access to affordable proton therapy
  3. Encourage cooperative research and innovation to advance the appropriate and cost-effective utilization of proton therapy.

The annual conference allows proton centers from across the Unites States to convene and discuss how to advance awareness of the clinical benefits of proton therapy for cancer patients, provide education, and advocate for insurance coverage. (more…)

how to reduce radiation-induced heart disease

The Heart of the Matter: Proton Therapy Can Prevent Radiation-Induced Heart Disease

By

Content and information provided by Rebecca Bergeron, RN, BSN, OCN Director of Clinical Services for Provision CARES Proton Therapy Knoxville

February is American Heart Month, and it is the perfect time to talk about preventing unnecessary radiation dose to the heart, often times causing radiation-induced heart disease. When people begin their fight against cancer, they are most likely not thinking about reducing their future risk of heart disease; however, this is certainly something we are thinking about at Provision CARES Proton Therapy.  (more…)