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Peppermint: A Natural Remedy for Irritable Bowel Syndrome

Peppermint: A Natural Remedy for Irritable Bowel Syndrome

For individuals dealing with digestive issues or bowel disorders, can adding peppermint to a nutrition plan help manage symptoms and digestion?

Peppermint: A Natural Remedy for Irritable Bowel Syndrome

Peppermint

First grown in England, peppermint’s medicinal properties were soon recognized and are cultivated today in Europe and Northern Africa.

How It Is Used

  • Peppermint oil can be taken as a tea or in capsule form.
  • Consult a physician or licensed healthcare professional to determine the proper dosage for the capsule form.

For Irritable Bowel Syndrome

Peppermint is taken as a tea to treat general digestive problems. It is known to reduce the production of gas in the intestine. Today, researchers recognize peppermint as effective for irritable bowel syndrome when used in oil form. (N. Alammar et al., 2019) Peppermint oil has been approved for use by IBS patients in Germany. However, the FDA has not approved peppermint and oil to treat any condition, but it has listed peppermint and the oil as generally safe. (ScienceDirect, 2024)

Interactions With Other Medications

  • Individuals who take lansoprazole to reduce stomach acid may compromise the enteric coating of some commercial peppermint oil capsules. (Taofikat B. Agbabiaka et al., 2018)
  • This can happen using H2-receptor antagonists, proton pump inhibitors, and antacids.

Other potential interactions include: (Benjamin Kligler, Sapna Chaudhary 2007)

  • Amitriptyline
  • Cyclosporine
  • Haloperidol
  • Peppermint extract may increase serum levels of these medications.

It is recommended to discuss medication interactions with a healthcare provider before starting supplements if taking any of these medications.

Pregnancy

  • Peppermint is not recommended for use during pregnancy or by nursing individuals.
  • It is unknown if it could affect a developing fetus.
  • It is unknown if it can affect a nursing baby.

How To Use The Herb

It is not that common, but some individuals are allergic to peppermint. Peppermint oil should never be applied to the face or around mucous membranes (National Center for Complementary and Integrative Health. 2020). Using more than one form, such as tea and oil, is not recommended because it could lead to side effects.

  • Because the FDA does not regulate supplements like peppermint and others, their contents may be varied.
  • Supplements may contain harmful ingredients or not contain the active ingredient at all.
  • This is why seeking reputable brands and informing an individual’s healthcare team of what is being taken is highly recommended.

It has the potential to worsen certain conditions and should not be used by:

  • Individuals who have chronic heartburn. (National Center for Complementary and Integrative Health. 2020)
  • Individuals who have severe liver damage.
  • Individuals who have inflammation of the gallbladder.
  • Individuals who have obstruction of bile ducts.
  • Individuals who are pregnant.
  • Individuals with gallstones should consult their healthcare provider to see if it is safe.

Side Effects

  • The oil may cause an upset stomach or burning.
  • Enteric-coated capsules may cause a burning sensation in the rectum. (Brooks D. Cash et al., 2016)

Children and Infants

  • Peppermint was used to treat colic in infants but is not recommended today.
  • The menthol in the tea may cause infants and small children to choke.
  • Chamomile could be a possible alternative. Consult a healthcare provider to see if it is safe.

Beyond Adjustments: Chiropractic and Integrative Healthcare


References

Alammar, N., Wang, L., Saberi, B., Nanavati, J., Holtmann, G., Shinohara, R. T., & Mullin, G. E. (2019). The impact of peppermint oil on the irritable bowel syndrome: a meta-analysis of the pooled clinical data. BMC complementary and alternative medicine, 19(1), 21. doi.org/10.1186/s12906-018-2409-0

ScienceDirect. (2024). Peppermint Oil. www.sciencedirect.com/topics/nursing-and-health-professions/peppermint-oil#:~:text=As%20a%20calcium%20channel%20blocker,as%20safe%E2%80%9D%20%5B11%5D.

Agbabiaka, T. B., Spencer, N. H., Khanom, S., & Goodman, C. (2018). Prevalence of drug-herb and drug-supplement interactions in older adults: a cross-sectional survey. The British journal of general practice : the journal of the Royal College of General Practitioners, 68(675), e711–e717. doi.org/10.3399/bjgp18X699101

Kligler, B., & Chaudhary, S. (2007). Peppermint oil. American family physician, 75(7), 1027–1030.

National Center for Complementary and Integrative Health. (2020). Peppermint oil. Retrieved from www.nccih.nih.gov/health/peppermint-oil#safety

Cash, B. D., Epstein, M. S., & Shah, S. M. (2016). A Novel Delivery System of Peppermint Oil Is an Effective Therapy for Irritable Bowel Syndrome Symptoms. Digestive diseases and sciences, 61(2), 560–571. doi.org/10.1007/s10620-015-3858-7

Khanna, R., MacDonald, J. K., & Levesque, B. G. (2014). Peppermint oil for the treatment of irritable bowel syndrome: a systematic review and meta-analysis. Journal of clinical gastroenterology, 48(6), 505–512. doi.org/10.1097/MCG.0b013e3182a88357

Acupuncture for Eczema: A Promising Therapy Option

Acupuncture for Eczema: A Promising Therapy Option

For individuals dealing with eczema, can incorporating acupuncture into a treatment plan help manage and reduce symptoms?

Acupuncture for Eczema: A Promising Therapy Option

Acupuncture for Eczema

Eczema is a chronic skin disorder that causes intense itching, dry skin, and rashes. Common treatment options for eczema include:

  • Moisturizers
  • Topical steroids
  • Prescription medications

Some research suggests that acupuncture may also help individuals with eczema. In recent years, researchers have looked at acupuncture as a possible treatment option and found that it can reduce symptoms.

Acupuncture

Acupuncture involves inserting thin metallic needles in specific acupoints in the body. It is believed that by stimulating specific points, the body’s central nervous system activates and releases certain chemicals designed to enable healing. Ailments that are treated using acupuncture include: (Johns Hopkins Medicine. 2024)

  • Headaches
  • Back pain
  • Nausea
  • Asthma
  • Osteoarthritis
  • Fibromyalgia

Treatment

Studies have found that acupuncture could be a treatment option depending on the severity of the condition and the intensity of the itching sensations. (Ruimin Jiao et al., 2020) The needles are placed at various points associated with relieving the condition. These points include: (Zhiwen Zeng et al., 2021)

LI4

  • Located at the base of the thumb and index finger.
  • It has been shown to help reduce inflammation and irritation.

LI11

  • This point is located within the elbow to reduce itchiness and dryness.

LV3

  • Located on the top of the foot, this point reduces stress on the nervous system.

SP6

  • The SP6 is on the lower calf above the ankle and can help reduce inflammation, redness, and skin irritation.

SP10

  • This point is located adjacent to the knee and reduces itchiness and inflammation.

ST36

  • This point is located below the knee on the back of the leg and is used to improve overall well-being.

Benefits

There are various benefits of acupuncture, including (Ruimin Jiao et al., 2020)

  • Dryness and itchiness relief.
  • Itchiness intensity reduction.
  • Affected area reduction.
  • Improved quality of life.
  1. Eczema flare-ups are also linked to stress and anxiety. Acupuncture has been shown to reduce anxiety and stress, which can also help relieve eczema symptoms (Beate Wild et al., 2020).
  2. Acupuncture helps repair skin barrier damage or the outer part of the skin designed to protect the body. (Rezan Akpinar, Saliha Karatay, 2018)
  3. Individuals with eczema tend to have a weakened skin barrier; this benefit can also improve symptoms. (National Eczema Association. 2023)
  4. Individuals with eczema often have an overactive immune system contributing to the disorder.
  5. According to research, acupuncture can also help in regulating the immune system. (Zhiwen Zeng et al., 2021)

Risks

Acupuncture is generally considered safe, but there are some risks to be aware of. These risks include: (Ruimin Jiao et al., 2020)

  • Swelling where the needles are inserted.
  • Red spots on the skin.
  • Increased itchiness.
  • A rash known as erythema – occurs when small blood vessels are injured.
  • Hemorrhages – excessive bleeding.
  • Fainting

Individuals Who Should Avoid Acupuncture

Not all individuals can be treated with acupuncture. Individuals who should avoid acupuncture treatment include individuals who (National Eczema Association. 2021) (Johns Hopkins Medicine. 2024)

  • Are pregnant
  • Have a bleeding disorder
  • Have an increased risk of infection
  • Have a pacemaker
  • Have breast implants

Effectiveness

Most studies on acupuncture for eczema show positive results that prove it can aid in relieving symptoms. (SeHyun Kang et al., 2018) (Ruimin Jiao et al., 2020) However, individuals should talk to their healthcare provider to see if it’s a safe option.


Unlocking Wellness


References

Johns Hopkins Medicine. (2024). Acupuncture (Health, Issue. www.hopkinsmedicine.org/health/wellness-and-prevention/acupuncture

Jiao, R., Yang, Z., Wang, Y., Zhou, J., Zeng, Y., & Liu, Z. (2020). The effectiveness and safety of acupuncture for patients with atopic eczema: a systematic review and meta-analysis. Acupuncture in medicine : journal of the British Medical Acupuncture Society, 38(1), 3–14. doi.org/10.1177/0964528419871058

Zeng, Z., Li, M., Zeng, Y., Zhang, J., Zhao, Y., Lin, Y., Qiu, R., Zhang, D. S., & Shang, H. C. (2021). Potential Acupoint Prescriptions and Outcome Reporting for Acupuncture in Atopic Eczema: A Scoping Review. Evidence-based complementary and alternative medicine : eCAM, 2021, 9994824. doi.org/10.1155/2021/9994824

Wild, B., Brenner, J., Joos, S., Samstag, Y., Buckert, M., & Valentini, J. (2020). Acupuncture in persons with an increased stress level-Results from a randomized-controlled pilot trial. PloS one, 15(7), e0236004. doi.org/10.1371/journal.pone.0236004

Akpinar R, Karatay S. (2018). Positive Effects of Acupuncture on Atopic Dermatitis. International Journal of Allergy Medications 4:030. doi.org/10.23937/2572-3308.1510030

National Eczema Association. (2023). Skin barrier basics for people with eczema. What is my skin barrier? nationaleczema.org/blog/what-is-my-skin-barrier/

National Eczema Association. (2021). Get the facts: acupuncture. Get the facts: acupuncture. nationaleczema.org/blog/get-the-facts-acupuncture/

Kang, S., Kim, Y. K., Yeom, M., Lee, H., Jang, H., Park, H. J., & Kim, K. (2018). Acupuncture improves symptoms in patients with mild-to-moderate atopic dermatitis: A randomized, sham-controlled preliminary trial. Complementary therapies in medicine, 41, 90–98. doi.org/10.1016/j.ctim.2018.08.013

Don’t Ignore Whiplash Signs and Symptoms: Seek Treatment

Don’t Ignore Whiplash Signs and Symptoms: Seek Treatment

Those experiencing neck pain, stiffness, headache, shoulder and back pain may suffer from a whiplash injury. Can knowing whiplash signs and symptoms help individuals recognize the injury and help healthcare providers develop an effective treatment plan?

Don't Ignore Whiplash Signs and Symptoms: Seek Treatment

Whiplash Signs and Symptoms

Whiplash is a neck injury that typically occurs after a motor vehicle collision or accident but can happen with any injury that rapidly whips the neck forward and backward. It is a mild to moderate injury of the neck muscles. Common whiplash signs and symptoms include:

  • Neck pain
  • Neck stiffness
  • Headache
  • Dizziness
  • Shoulder pain
  • Back pain
  • Tingling sensations in the neck or down the arms. (Johns Hopkins Medicine. 2024)
  • Some individuals can develop chronic pain and headaches.

The symptoms and treatment depend on the severity of the injury. Treatment can include over-the-counter pain medicines, ice and heat therapy, chiropractic, physical therapy, and stretching exercises.

Frequent Signs and Symptoms

The sudden whipping movement of the head can affect several structures within the neck. These structures include:

  • Muscles
  • Bones
  • Joints
  • Tendons
  • Ligaments
  • Intervertebral discs
  • Blood vessels
  • Nerves.
  • Any or all of these can be affected by a whiplash injury. (MedlinePlus, 2017)

Statistics

Whiplash is a neck sprain that occurs from a fast neck-jerking motion. Whiplash injuries account for more than half of vehicle traffic collision injuries. (Michele Sterling, 2014) Even with a minor injury, the most frequent symptoms include: (Nobuhiro Tanaka et al., 2018)

  • Neck pain
  • Next stiffness
  • Neck tenderness
  • Limited range of motion of the neck

Individuals can develop neck discomfort and pain shortly after an injury; however, the more intense pain and stiffness typically do not occur right after the injury. Symptoms tend to worsen the next day or 24 hours later. (Nobuhiro Tanaka et al., 2018)

Beginning Symptoms

Researchers have found that approximately more than half of individuals with whiplash develop symptoms within six hours of the injury. Around 90% develop symptoms within 24 hours, and 100% develop symptoms within 72 hours. (Nobuhiro Tanaka et al., 2018)

Whiplash vs. Traumatic Cervical Spine Injury

Whiplash describes a mild to moderate neck injury without significant skeletal or neurological symptoms. Significant neck injuries can lead to fractures and dislocations of the spine that can affect the nerves and spinal cord. Once an individual develops neurological problems associated with a neck injury, the diagnosis changes from whiplash to traumatic cervical spine injury. These differences can be confusing as they are on the same spectrum. To better understand the severity of a neck sprain, the Quebec classification system divides neck injury into the following grades (Nobuhiro Tanaka et al., 2018)

Grade 0

  • This means there are no neck symptoms or physical examination signs.

Grade 1

  • There is neck pain and stiffness.
  • Very few findings from the physical examination.

Grade 2

  • Indicates neck pain and stiffness
  • Neck tenderness
  • Decreased mobility or neck range of motion on physical examination.

Grade 3

  • Involves muscle pain and stiffness.
  • Neurologic symptoms include:
  • Numbness
  • Tingling
  • Weakness in the arms
  • Decreased reflexes

Grade 4

  • Involves a fracture or dislocation of the bones of the spinal column.

Other Symptoms

Other whiplash signs and symptoms that can be associated with the injury but are less common or only occur with a severe injury include (Nobuhiro Tanaka et al., 2018)

  • Tension headache
  • Jaw pain
  • Sleep problems
  • Migraine headache
  • Difficulty concentrating
  • Reading difficulties
  • Blurred vision
  • Dizziness
  • Driving difficulties

Rare Symptoms

Individuals with severe injuries can develop rare symptoms that often indicate traumatic cervical spine injury and include: (Nobuhiro Tanaka et al., 2018)

  • Amnesia
  • Tremor
  • Voice changes
  • Torticollis – painful muscle spasms that keep the head turned to one side.
  • Bleeding in the brain

Complications

Most individual generally recover from their symptoms within a few weeks to a few months. (Michele Sterling, 2014) However, whiplash complications can occur, especially with severe grade 3 or grade 4 injuries. The most common complications of a whiplash injury include chronic/long-term pain and headaches. (Michele Sterling, 2014) Traumatic cervical spine injury can affect the spinal cord and be associated with chronic neurological problems, including numbness, weakness, and difficulty walking. (Luc van Den Hauwe et al., 2020)

Treatment

The pain is typically more severe the next day than after the injury. Whiplash musculoskeletal injury treatment depends on whether it is an acute injury or the individual has developed chronic neck pain and stiffness.

  • Acute pain can be treated with over-the-counter medicines like Tylenol and Advil, which effectively treat the pain.
  • Advil is a nonsteroidal anti-inflammatory that can be taken with the pain reliever Tylenol, which works in different ways.
  • The mainstay of treatment is encouraging regular activity with stretching and exercise. (Michele Sterling, 2014)
  • Physical therapy uses various range of motion exercises to strengthen the neck muscles and relieve the pain.
  • Chiropractic adjustments and non-surgical decompression can help realign and nourish the spine.
  • Acupuncture can cause the body to release natural hormones that provide pain relief, help relax the soft tissues, increase circulation, and reduce inflammation. The cervical spine can return to alignment when the soft tissues are no longer inflamed and spasming. (Tae-Woong Moon et al., 2014)

Neck Injuries


References

Medicine, J. H. (2024). Whiplash Injury. www.hopkinsmedicine.org/health/conditions-and-diseases/whiplash-injury

MedlinePlus. (2017). Neck Injuries and Disorders. Retrieved from medlineplus.gov/neckinjuriesanddisorders.html#cat_95

Sterling M. (2014). Physiotherapy management of whiplash-associated disorders (WAD). Journal of physiotherapy, 60(1), 5–12. doi.org/10.1016/j.jphys.2013.12.004

Tanaka, N., Atesok, K., Nakanishi, K., Kamei, N., Nakamae, T., Kotaka, S., & Adachi, N. (2018). Pathology and Treatment of Traumatic Cervical Spine Syndrome: Whiplash Injury. Advances in orthopedics, 2018, 4765050. doi.org/10.1155/2018/4765050

van Den Hauwe L, Sundgren PC, Flanders AE. (2020). Spinal Trauma and Spinal Cord Injury (SCI). In: Hodler J, Kubik-Huch RA, von Schulthess GK, editors. Diseases of the Brain, Head and Neck, Spine 2020–2023: Diagnostic Imaging [Internet]. Cham (CH): Springer; 2020. Chapter 19. Available from: www.ncbi.nlm.nih.gov/books/NBK554330/ doi: 10.1007/978-3-030-38490-6_19

Moon, T. W., Posadzki, P., Choi, T. Y., Park, T. Y., Kim, H. J., Lee, M. S., & Ernst, E. (2014). Acupuncture for treating whiplash associated disorder: a systematic review of randomised clinical trials. Evidence-based complementary and alternative medicine : eCAM, 2014, 870271. doi.org/10.1155/2014/870271

Unleash the Power of Nopal for Health and Wellness

Unleash the Power of Nopal for Health and Wellness

Can incorporating nopal or prickly pear cactus into one’s diet help individuals trying to lower blood glucose, inflammation, and risk factors associated with heart and metabolic diseases?

Unleash the Power of Nopal for Health and Wellness

Nopal

Nopal, also known as prickly pear cactus, is a versatile vegetable that can be added to nutrition plans to increase fiber intake, vitamins, minerals, and plant-based compounds.  It grows in the U.S. Southwest, Latin America, and the Mediterranean. The pads, or the nopales or cactus paddles, have a texture like okra and slight tartness. The prickly pear cactus fruit, referred to as tuna in Spanish, is also consumed. (University of Arizona Cooperative Extension, 2019) It is often used in fruit salsas, salads, and desserts and is available as a supplement in tablet and powder form.

Serving Size and Nutrition

One cup of cooked nopales, around five pads, without added salt, contains: (U.S. Department of Agriculture, FoodData Central, 2018)

  • Calories – 22
  • Fat – 0 grams
  • Sodium – 30 milligrams
  • Carbohydrates – 5 grams
  • Fiber – 3 grams
  • Sugars – 1.7 grams
  • Protein – 2 grams
  • Vitamin A – 600 international units
  • Vitamin C – 8 milligrams
  • Vitamin K – 8 micrograms
  • Potassium – 291 milligrams
  • Choline – 11 milligrams
  • Calcium – 244 milligrams
  • Magnesium – 70 milligrams

It is generally recommended that most individuals consume 2.5 to 4 cups of vegetables per day. (U.S. Department of Agriculture, MyPlate, 2020)

Benefits

Nopal is highly nutritious, low in calories, free of fat, sodium, or cholesterol, and full of fiber, vitamins, minerals, and betalains. (Parisa Rahimi et al., 2019) Betalains are pigments with anti-inflammatory properties. The variety of fibers creates a low glycemic index (measures how much a specific food raises blood sugar levels after consumption) of about 32, a recommended addition to a diabetes-friendly diet. (Patricia López-Romero et al., 2014)

Compounds

  • Nopal contains a variety of beneficial carbohydrates, vitamins, and minerals.
  • Nopal has soluble and insoluble fiber, which benefits blood sugar.
  • It also contains vitamin A, carotenoids, vitamin C, calcium, and plant-based compounds like phenols and betalains. (Karina Corona-Cervantes et al., 2022)

Blood Sugar Regulation

Research has evaluated regular nopal consumption and supplementation for blood sugar control. A study on blood sugar evaluated adding nopal to a high-carbohydrate breakfast or a breakfast high in soy protein in Mexican individuals with type 2 diabetes. The study found that consuming nopales, about 300 grams or 1.75 to 2 cups before a meal, could reduce after-meal/postprandial blood sugars. (Patricia López-Romero et al., 2014) An older study had similar results. (Montserrat Bacardi-Gascon et al., 2007) Individuals were randomly assigned to consume 85 grams of nopal with three different breakfast options:

  • Chilaquiles – a casserole made with corn tortilla, vegetable oil, and pinto beans.
  • Burritos – made with eggs, vegetable oil, and pinto beans.
  • Quesadillas – made with flour tortillas, low-fat cheese, avocado, and pinto beans.
  • The groups assigned to eat nopales had reductions in blood sugar. There was a:
  • 30% reduction in the chilaquiles group.
  • 20% decrease in the burrito group.
  • 48% reduction in the quesadilla group.

However, the studies were small, and the population was not diverse. so further research is needed.

Increased Fiber

The combination of soluble and insoluble fiber benefits the gut in various ways. Soluble fiber can act as a prebiotic, feeding beneficial bacteria in the gut and assisting in removing low-density lipoprotein (LDL) cholesterol from the body. Insoluble fiber increases transit time, or how quickly food moves through the digestive system and promotes bowel regularity. (Centers for Disease Control and Prevention, 2022) In a short-term randomized clinical control trial, researchers found an improvement in irritable bowel syndrome symptoms in individuals supplemented with 20 and 30 grams of nopal fiber. (Jose M Remes-Troche et al., 2021) For individuals not used to consuming fibrous foods, it may cause mild diarrhea, so it is recommended to increase intake slowly and with adequate water to prevent gas and bloating.

Plant Based Calcium

One cup of nopal provides 244 milligrams or 24% of daily calcium needs. Calcium is a mineral that optimizes bone and teeth health. It also assists in blood vessel contraction and dilation, muscle function, blood clotting, nerve transmission, and hormonal secretion. (National Institutes of Health. Office of Dietary Supplements 2024) Individuals who follow diets that exclude dairy products can benefit from plant-based calcium sources. This includes cruciferous vegetables like kale, collards, and arugula.

Other Benefits

Studies done in animals and test tubes suggest that fresh nopal and extracts may assist in reducing triglycerides and cholesterol in metabolic dysfunction-associated steatotic liver disease or when unhealthy amounts of fat accumulate in the liver. (Karym El-Mostafa et al., 2014) Other potential benefits with limited evidence include:

Consult a Dietician or Healthcare Provider

Unless individuals are allergic to it, most can eat whole nopal without a problem. However, supplementing is different because it provides a concentrated source. Individuals taking medication to manage diabetes and consuming nopal regularly may contribute to an increased risk of developing hypoglycemia or low blood sugar. Dermatitis has also been reported from contact with the cactus spines. (U.S. Department of Agriculture, FoodData Central, 2018) There have been rare reports of bowel obstruction in individuals who consume large amounts of the seeds found in the fruit. (Karym El-Mostafa et al., 2014) Ask a registered dietitian or primary healthcare provider if nopal can provide safe benefits.


Nutrition Fundamentals


References

University of Arizona Cooperative Extension. Hope Wilson, M. W., Patricia Zilliox. (2019). Prickly pear cactus: food of the desert. extension.arizona.edu/sites/extension.arizona.edu/files/pubs/az1800-2019.pdf

U.S. Department of Agriculture. FoodData Central. (2018). Nopales, cooked, without salt. Retrieved from fdc.nal.usda.gov/fdc-app.html#/food-details/169388/nutrients

U.S. Department of Agriculture. MyPlate. (2020-2025). Vegetables. Retrieved from www.myplate.gov/eat-healthy/vegetables

Rahimi, P., Abedimanesh, S., Mesbah-Namin, S. A., & Ostadrahimi, A. (2019). Betalains, the nature-inspired pigments, in health and diseases. Critical reviews in food science and nutrition, 59(18), 2949–2978. doi.org/10.1080/10408398.2018.1479830

López-Romero, P., Pichardo-Ontiveros, E., Avila-Nava, A., Vázquez-Manjarrez, N., Tovar, A. R., Pedraza-Chaverri, J., & Torres, N. (2014). The effect of nopal (Opuntia ficus indica) on postprandial blood glucose, incretins, and antioxidant activity in Mexican patients with type 2 diabetes after consumption of two different composition breakfasts. Journal of the Academy of Nutrition and Dietetics, 114(11), 1811–1818. doi.org/10.1016/j.jand.2014.06.352

Corona-Cervantes, K., Parra-Carriedo, A., Hernández-Quiroz, F., Martínez-Castro, N., Vélez-Ixta, J. M., Guajardo-López, D., García-Mena, J., & Hernández-Guerrero, C. (2022). Physical and Dietary Intervention with Opuntia ficus-indica (Nopal) in Women with Obesity Improves Health Condition through Gut Microbiota Adjustment. Nutrients, 14(5), 1008. doi.org/10.3390/nu14051008

Bacardi-Gascon, M., Dueñas-Mena, D., & Jimenez-Cruz, A. (2007). Lowering effect on postprandial glycemic response of nopales added to Mexican breakfasts. Diabetes care, 30(5), 1264–1265. doi.org/10.2337/dc06-2506

Centers for Disease Control and Prevention. (2022). Fiber: the carb that helps you manage diabetes. Retrieved from www.cdc.gov/diabetes/library/features/role-of-fiber.html

Remes-Troche, J. M., Taboada-Liceaga, H., Gill, S., Amieva-Balmori, M., Rossi, M., Hernández-Ramírez, G., García-Mazcorro, J. F., & Whelan, K. (2021). Nopal fiber (Opuntia ficus-indica) improves symptoms in irritable bowel syndrome in the short term: a randomized controlled trial. Neurogastroenterology and motility, 33(2), e13986. doi.org/10.1111/nmo.13986

National Institutes of Health (NIH). Office of Dietary Supplements. (2024). Calcium. Retrieved from ods.od.nih.gov/factsheets/Calcium-HealthProfessional/

El-Mostafa, K., El Kharrassi, Y., Badreddine, A., Andreoletti, P., Vamecq, J., El Kebbaj, M. S., Latruffe, N., Lizard, G., Nasser, B., & Cherkaoui-Malki, M. (2014). Nopal cactus (Opuntia ficus-indica) as a source of bioactive compounds for nutrition, health and disease. Molecules (Basel, Switzerland), 19(9), 14879–14901. doi.org/10.3390/molecules190914879

Onakpoya, I. J., O’Sullivan, J., & Heneghan, C. J. (2015). The effect of cactus pear (Opuntia ficus-indica) on body weight and cardiovascular risk factors: a systematic review and meta-analysis of randomized clinical trials. Nutrition (Burbank, Los Angeles County, Calif.), 31(5), 640–646. doi.org/10.1016/j.nut.2014.11.015

Corona-Cervantes, K., Parra-Carriedo, A., Hernández-Quiroz, F., Martínez-Castro, N., Vélez-Ixta, J. M., Guajardo-López, D., García-Mena, J., & Hernández-Guerrero, C. (2022). Physical and Dietary Intervention with Opuntia ficus-indica (Nopal) in Women with Obesity Improves Health Condition through Gut Microbiota Adjustment. Nutrients, 14(5), 1008. doi.org/10.3390/nu14051008

Enhance Your Breathing Technique for Optimal Fitness

Enhance Your Breathing Technique for Optimal Fitness

Can improving breathing patterns help further fitness and optimize overall health for individuals who walk for exercise?

Enhance Your Breathing Technique for Optimal Fitness

Improve Breathing and Walking

Exercising is a moment in which breathing can quicken and become labored if not done correctly. There is a proper way to breathe when exercising, especially when walking or speed walking. Breathing incorrectly causes rapid fatigue and exhaustion. Controlling the flow of one’s breath improves endurance and cardiovascular health, and it can also amplify metabolism, mood, and energy levels. (Hsiu-Chin Teng et al., 2018) Known as diaphragmatic breathing, it is used for those with reduced lung capacity, like individuals with chronic obstructive pulmonary disease/COPD. The practice improves lung capacity and is a recommended way to help relieve stress.

Physiology

  • During exercise, the oxygen inhaled converts the calories consumed into energy that fuels the body. This process is referred to as metabolism.
  • When the oxygen supply exceeds the body’s oxygen needs, the body is in an aerobic state. This means there is plenty of oxygen to fuel physical activity/exercise as there are calories to burn.
  • If the oxygen supply falls short of the body’s oxygen needs, the body falls into an anaerobic state.
  • Deprived of oxygen, the body turns to stored fuel in the muscles, known as glycogen.
  • This delivers a powerful burst of energy, but the fuel is quickly spent and fatigue and exhaustion soon follow.
  • Increasing airflow in and out of the lungs can prevent early exhaustion and help the body burn calories more effectively. (Your lungs and exercise. Breathe 2016)

Improved Breathing Benefits

Optimal breathing starts in infancy. When a baby breathes, their belly rises and falls. This facilitates respiration by pushing and pulling the diaphragm – the muscle that separates the lungs and abdominal cavity. When the baby inhales, the belly extends, pulling the diaphragm downward and allowing the lungs to fill with air. When the baby exhales, the belly draws in, pressing the diaphragm upward and forcing air out. As the body ages and the capacity of the lungs increases, individuals shift from belly-breathing to chest-breathing. Chest breathing involves the chest wall muscles with little use of the diaphragm. Chest breathing usually provides enough air for everyday activity but does not fill the lungs.

This is why individuals resort to mouth-breathing or gasping when the oxygen supply is limited. Even those in decent physical shape may be inadvertently undermining efforts by sucking in their stomach to look thinner, depriving themselves of complete inhalations and exhalations. To overcome this, individuals need to re-train their bodies to activate the abdominal muscles when walking. Belly or diaphragmatic breathing can extend the duration of exercise while strengthening the core muscles. (Nelson, Nicole 2012) By increasing core stability, individuals can better support the spine and maintain a healthy posture when walking. This stabilizes the hips, knees, upper back, and shoulders, making the body less prone to strain, instability, and fatigue from unhealthy posture. (Tomas K. Tong et al., 2014)

Breathing Correctly

The inhalation draws the belly out, pulls the diaphragm down, and inflates the lungs. Simultaneously, it extends the ribcage and lengthens the lower spine. This forces the shoulders and collarbone backward, further opening the chest. Exhaling does the reverse.

Walking

Start by inhaling and exhaling through the nose, ensuring that the inhalation duration matches the exhalation duration. When picking up the pace, individuals can resort to mouth-breathing, maintaining the same inhalation/exhalation rhythm. At no time should breathing be held in. Learning diaphragmatic breathing takes time, but the following steps can be a starting point:

  • Inhale by inflating the belly fully on a count of five.
  • Allow the lungs to fill, drawing the shoulders back as this happens.
  • Exhale by pulling the belly button toward the spine on a count of five.
  • Use the diaphragm to press the air out of the lungs, keeping the spine erect.
  • Repeat.

If unable to maintain a count of five, individuals can shorten the count or slow the pace of the walk. Individuals in good shape may be able to extend the count. Initially, diaphragmatic breathing may not come naturally, but it will become automatic with practice. Stop and place the hands over the head if short of breath when walking. Breathe in and out deeply and evenly until breathing returns to normal.


Unlocking Wellness


References

Teng, H. C., Yeh, M. L., & Wang, M. H. (2018). Walking with controlled breathing improves exercise tolerance, anxiety, and quality of life in heart failure patients: A randomized controlled trial. European journal of cardiovascular nursing, 17(8), 717–727. doi.org/10.1177/1474515118778453

Your lungs and exercise. (2016). Breathe (Sheffield, England), 12(1), 97–100. doi.org/10.1183/20734735.ELF121

Tong, T. K., Wu, S., Nie, J., Baker, J. S., & Lin, H. (2014). The occurrence of core muscle fatigue during high-intensity running exercise and its limitation to performance: the role of respiratory work. Journal of sports science & medicine, 13(2), 244–251.

Nelson, Nicole MS, LMT. (2012). Diaphragmatic Breathing: The Foundation of Core Stability. Strength and Conditioning Journal 34(5):p 34-40, October 2012. | DOI: 10.1519/SSC.0b013e31826ddc07

The Importance of Nonsurgical Treatments for Reducing Joint Hypermobilitys

The Importance of Nonsurgical Treatments for Reducing Joint Hypermobilitys

Can individuals with joint hypermobility find relief through nonsurgical treatments in reducing pain and restoring body mobility?

Introduction

When a person moves their body, the surrounding muscles, joints, and ligaments are incorporated into various tasks that allow them to stretch and be flexible without pain or discomfort. Many repetitive motions enable the individual to continue their routine. However, when the joints, muscles, and ligaments are stretched farther than normal in the upper and lower extremities without pain, it is known as joint hypermobility. This connective tissue disorder can correlate with other symptoms that affect the body and cause many people to seek treatment to manage joint hypermobility symptoms. In today’s article, we will look at joint hypermobility and how various non-surgical treatments can help reduce pain caused by joint hypermobility and restore body mobility. We talk with certified medical providers who consolidate our patients’ information to assess how their pain may be associated with joint hypermobility. We also inform and guide patients on how integrating various non-surgical treatments can help improve joint function while managing the associated symptoms. We encourage our patients to ask their associated medical providers intricate and insightful questions about incorporating non-surgical therapies as part of their routine to reduce pain and discomfort from joint hypermobility. Dr. Jimenez, D.C., includes this information as an academic service. Disclaimer.

 

What Is Joint Hypermobility?

Do you often feel your joints locked up in your hands, wrists, knees, and elbows? Do you experience pain and fatigue in your joints when your body feels constantly tired? Or when you stretch your extremities, do they extend farther than usual to feel the relief? Many of these various scenarios are often correlated with individuals experiencing joint hypermobility. Joint hypermobility is an inherited disorder with autosomal dominant patterns that characterize joint hyperlaxity and musculoskeletal pain within the body extremities. (Carbonell-Bobadilla et al., 2020) This connective tissue condition is often related to the flexibility of the connected tissues like ligaments and tendons in the body. An example would be if a person’s thumb is touching their inner forearm without feeling pain or discomfort, they have joint hypermobility. Additionally, many individuals dealing with joint hypermobility will often have a difficult diagnosis as they will develop skin and tissue fragility over time, causing musculoskeletal complications. (Tofts et al., 2023)

 

 

When individuals deal with joint hypermobility over time, many often have symptomatic joint hypermobility. They will present with musculoskeletal and systemic symptoms that lead to displaying skeletal deformities, tissue and skin fragility, and structural differences in the body’s system. (Nicholson et al., 2022) Some of the symptoms that joint hypermobility are shown in a diagnosis include:

  • Muscle pain and joint stiffness
  • Clicking joints
  • Fatigue
  • Digestive issues
  • Balance issues

Luckily, there are various treatments that many people can use to help restrengthen the surrounding muscles around the joints and reduce the correlating symptoms caused by joint hypermobility. 


Movement As Medicine-Video


Nonsurgical Treatments For Joint Hypermobility

When dealing with joint hypermobility, many individuals need to seek treatments to reduce the correlating pain-like symptoms of joint hypermobility and help relieve the body’s extremities while restoring mobility. Some excellent treatments for joint hypermobility are non-surgical therapies that are non-invasive, gentle on the joints and muscles, and cost-effective. Various non-surgical treatments can be customized for the individual depending on how severe their joint hypermobility and comorbidities affect the person’s body. Non-surgical treatments can relieve the body from joint hypermobility by treating the causes of the pain through reduction and maximizing functional capacity and restoring a person’s quality of life. (Atwell et al., 2021) The three non-surgical treatments that are excellent for reducing pain from joint hypermobility and helping strengthen the surrounding muscles are below.

 

Chiropractic Care

Chiropractic care utilizes spinal manipulation and helps restore joint mobility in the body to reduce the effects of joint hypermobility by stabilizing the affected joints from the hypermobile extremities. (Boudreau et al., 2020) Chiropractors incorporate mechanical and manual manipulation and various techniques to help many individuals improve their posture by being more mindful of their bodies and work with multiple other therapies to emphasize controlled movements. With other comorbidities associated with joint hypermobility, like back and neck pain, chiropractic care can reduce these comorbidity symptoms and allow the individual to regain their quality of life.

 

Acupuncture

Another non-surgical treatment that many individuals can incorporate to reduce joint hypermobility and its comorbidities is acupuncture. Acupuncture utilizes small, thin, solid needles that acupuncturists use to block pain receptors and restore the body’s energy flow. When many individuals are dealing with joint hypermobility, their extremities in the legs, hands, and feet are in pain over time, which can cause the body to be unstable. What acupuncture does is help reduce the pain caused by joint hypermobility associated with the extremities and restore balance and functionality to the body (Luan et al., 2023). This means that if a person is dealing with stiffness and muscle pain from joint hypermobility, acupuncture can help rewire the pain by placing the needles in the body’s acupoints to provide relief. 

 

Physical Therapy

Physical therapy is the last non-surgical treatment many people can incorporate into their daily routine. Physical therapy can help manage joint hypermobility that are tailored to help strengthen weak muscles that are surrounding the affected joints, improving a person’s stability and helping reduce the risk of dislocation. Additionally, many individuals can use low-impact exercise to ensure optimal motor control when doing regular exercises without putting excessive strain on the joints. (Russek et al., 2022)

 

 

By incorporating these three non-surgical treatments as part of a customized treatment for joint hypermobility, many individuals will begin to feel a difference in their balance. They will not experience joint pain by being more mindful of the body and incorporating small changes in their routine. Even though living with joint hypermobility can be a challenge for many individuals, by integrating and utilizing the right combination of non-surgical treatments, many can begin to lead active and fulfilling lives.


References

Atwell, K., Michael, W., Dubey, J., James, S., Martonffy, A., Anderson, S., Rudin, N., & Schrager, S. (2021). Diagnosis and Management of Hypermobility Spectrum Disorders in Primary Care. J Am Board Fam Med, 34(4), 838-848. doi.org/10.3122/jabfm.2021.04.200374

Boudreau, P. A., Steiman, I., & Mior, S. (2020). Clinical management of benign joint hypermobility syndrome: a case series. J Can Chiropr Assoc, 64(1), 43-54. www.ncbi.nlm.nih.gov/pubmed/32476667

www.ncbi.nlm.nih.gov/pmc/articles/PMC7250515/pdf/jcca-64-43.pdf

Carbonell-Bobadilla, N., Rodriguez-Alvarez, A. A., Rojas-Garcia, G., Barragan-Garfias, J. A., Orrantia-Vertiz, M., & Rodriguez-Romo, R. (2020). [Joint hypermobility syndrome]. Acta Ortop Mex, 34(6), 441-449. www.ncbi.nlm.nih.gov/pubmed/34020527 (Sindrome de hipermovilidad articular.)

Luan, L., Zhu, M., Adams, R., Witchalls, J., Pranata, A., & Han, J. (2023). Effects of acupuncture or similar needling therapy on pain, proprioception, balance, and self-reported function in individuals with chronic ankle instability: A systematic review and meta-analysis. Complement Ther Med, 77, 102983. doi.org/10.1016/j.ctim.2023.102983

Nicholson, L. L., Simmonds, J., Pacey, V., De Wandele, I., Rombaut, L., Williams, C. M., & Chan, C. (2022). International Perspectives on Joint Hypermobility: A Synthesis of Current Science to Guide Clinical and Research Directions. J Clin Rheumatol, 28(6), 314-320. doi.org/10.1097/RHU.0000000000001864

Russek, L. N., Block, N. P., Byrne, E., Chalela, S., Chan, C., Comerford, M., Frost, N., Hennessey, S., McCarthy, A., Nicholson, L. L., Parry, J., Simmonds, J., Stott, P. J., Thomas, L., Treleaven, J., Wagner, W., & Hakim, A. (2022). Presentation and physical therapy management of upper cervical instability in patients with symptomatic generalized joint hypermobility: International expert consensus recommendations. Front Med (Lausanne), 9, 1072764. doi.org/10.3389/fmed.2022.1072764

Tofts, L. J., Simmonds, J., Schwartz, S. B., Richheimer, R. M., O’Connor, C., Elias, E., Engelbert, R., Cleary, K., Tinkle, B. T., Kline, A. D., Hakim, A. J., van Rossum, M. A. J., & Pacey, V. (2023). Pediatric joint hypermobility: a diagnostic framework and narrative review. Orphanet J Rare Dis, 18(1), 104. doi.org/10.1186/s13023-023-02717-2

Disclaimer

Recovering from a Triceps Tear: What to Expect

Recovering from a Triceps Tear: What to Expect

For athletes and sports enthusiasts, a torn triceps can be a serious injury. Can knowing their symptoms, causes, risk factors, and potential complications help healthcare providers develop an effective treatment plan?

Recovering from a Triceps Tear: What to Expect

Torn Triceps Injury

The triceps is the muscle on the back of the upper arm that allows the elbow to straighten. Fortunately, triceps tears are uncommon, but they can be serious. The injury affects men more often than women and usually occurs from trauma, sports, and/or exercise activities. Depending on the extent and severity of the injury, a torn triceps injury can require splinting, physical therapy, and possibly surgery to regain movement and strength. Recovery after a triceps tear typically lasts around six months. (The Ohio State University Wexner Medical Center. 2021)

Anatomy

The triceps brachii muscle, or triceps, runs along the back of the upper arm. It is named tri- because it has three heads – the long, medial, and lateral head. (Sendic G. 2023) The triceps originates at the shoulder and attaches to the shoulder blade/scapula and upper arm bone/humerus. At the bottom, it attaches to the point of the elbow. This is the bone on the pinky side of the forearm, known as the ulna. The triceps cause movement at the shoulder and the elbow joint. At the shoulder, it performs extension or backward movement of the arm and adduction or moving the arm toward the body. The main function of this muscle is at the elbow, where it performs extension or straightening of the elbow. The triceps work the opposite of the biceps muscle on the front of the upper arm, which conducts flexion or bending of the elbow.

Triceps Tear

Tears can occur anywhere along the length of a muscle or tendon, which is the structure that attaches the muscle to the bones. Triceps tears commonly occur in the tendon connecting the triceps to the back of the elbow. Muscle and tendon tears are graded from 1 to 3 based on severity. (Alberto Grassi et al., 2016)

Grade 1 Mild

  • These small tears cause pain that worsens with movement.
  • There is some swelling, bruising, and minimal loss of function.

Grade 2 Moderate

  • These tears are larger and have moderate swelling and bruising.
  • The fibers are partially torn and stretched.
  • Up to 50% loss of function.

Grade 3 Severe

  • This is the worst type of tear, where the muscle or tendon is completely torn.
  • These injuries cause severe pain and disability.

Symptoms

Triceps tears cause immediate pain in the back of the elbow and upper arm that worsens when trying to move the elbow. Individuals might also feel and/or hear a popping or tearing sensation. There will be swelling, and the skin will likely be red and/or bruised. With a partial tear, the arm will feel weak. If there is a complete tear, there will be significant weakness when straightening the elbow. Individuals may also notice a lump on the back of their arm where the muscles have contracted and knotted together.

Causes

Triceps tears usually occur during trauma, when the muscle is contracted and an external force pushes the elbow into a bent position. (Kyle Casadei et al., 2020) One of the most common causes is by falling on an outstretched arm. Triceps tears also occur during sports activities like:

  • Throwing a baseball
  • Blocking in a football game
  • Gymnastics
  • Boxing
  • When a player falls and lands on their arm.
  • Tears can also happen when using heavy weights during triceps-targeted exercises, such as the bench press.
  • Tears can also occur from direct trauma to the muscle, like a motor vehicle accident, but are less common.

Long-Term

Triceps tears can develop over time as a result of tendonitis. This condition usually occurs from repetitive use of the triceps muscle during activities like manual labor or exercise. Triceps tendonitis is sometimes referred to as weightlifter’s elbow. (Orthopedic & Spine Center. N.D.) The strain on tendons causes tiny tears that the body typically heals. However, if more strain is placed on the tendon than it can keep up with, the tiny tears can begin to grow.

Risk Factors

Risk factors can increase the risk of a triceps tear. Underlying medical conditions can weaken tendons, increasing the risk of injury, and can include: (Tony Mangano et al., 2015)

  • Diabetes
  • Rheumatoid arthritis
  • Hyperparathyroidism
  • Lupus
  • Xanthoma – fatty deposits of cholesterol under the skin.
  • Hemangioendothelioma – cancerous or noncancerous tumors caused by abnormal growth of blood vessel cells.
  • Chronic kidney failure
  • Chronic tendonitis or bursitis in the elbow.
  • Individuals who have had cortisone shots in the tendon.
  • Individuals using anabolic steroids.

Triceps tears tend to occur more commonly in males between 30 and 50. (Ortho Bullets. 2022) This comes from participating in activities like football, weightlifting, bodybuilding, and manual labor, which also increases the risk of injury.

Treatment

Treatment depends on which part of the triceps is affected and the extent of the damage. It may only need resting for a few weeks, physical therapy, or require surgery.

Nonsurgical

Partial tears in the triceps that involve less than 50% of the tendon can often be treated without surgery. (Mehmet Demirhan, Ali Ersen 2016) Initial treatment includes:

  • Splinting the elbow with a slight bend for four to six weeks allows the injured tissue to heal. (Ortho Bullets. 2022)
  • During this time, ice can be applied to the area for 15 to 20 minutes several times daily to help decrease pain and swelling.
  • Non-steroidal anti-inflammatory medications/NSAIDs – Aleve, Advil, and Bayer can help reduce inflammation.
  • Other over-the-counter medications like Tylenol can help decrease the pain.
  • Once the splint is removed, physical therapy will help restore movement and strength in the elbow.
  • Full movement is expected to return within 12 weeks, but full strength will not return until six to nine months after the injury. (Mehmet Demirhan, Ali Ersen 2016)

Surgery

Triceps tendon tears that involve more than 50% of the tendon require surgery. In some cases, however, surgery may still be recommended for tears smaller than 50% if the individual has a physically demanding job or plans to resume playing sports at a high level. Tears in the muscle belly or area where the muscle and tendon join are typically sewn back together. If the tendon is no longer attached to the bone, it is screwed back on. Recovery and physical therapy after surgery depend on the specific surgeon’s protocols. In general, individuals will spend a couple of weeks in a brace. Around four weeks after surgery, individuals will be able to start moving the elbow again. However, they won’t be able to start doing heavy lifting for four to six months. (Ortho Bullets. 2022) (Mehmet Demirhan, Ali Ersen 2016)

Complications

Complications can occur after triceps repair, whether there was surgery or not. For example, individuals may have problems regaining full elbow extension or straightening. They are also at a higher risk of re-rupture if they try to use the arm before it’s fully healed. (Mehmet Demirhan, Ali Ersen 2016)


Chiropractic Care for Healing After Trauma


References

The Ohio State University Wexner Medical Center. (2021). Distal triceps repair: clinical care guideline. (Medicine, Issue. medicine.osu.edu/-/media/files/medicine/departments/sports-medicine/medical-professionals/shoulder-and-elbow/distaltricepsrepair.pdf?

Sendic G. Kenhub. (2023). Triceps brachii muscle Kenhub. www.kenhub.com/en/library/anatomy/triceps-brachii-muscle

Grassi, A., Quaglia, A., Canata, G. L., & Zaffagnini, S. (2016). An update on the grading of muscle injuries: a narrative review from clinical to comprehensive systems. Joints, 4(1), 39–46. doi.org/10.11138/jts/2016.4.1.039

Casadei, K., Kiel, J., & Freidl, M. (2020). Triceps Tendon Injuries. Current sports medicine reports, 19(9), 367–372. doi.org/10.1249/JSR.0000000000000749

Orthopedic & Spine Center. (N.D.). Triceps tendonitis or weightlifter’s elbow. Resource Center. www.osc-ortho.com/resources/elbow-pain/triceps-tendonitis-or-weightlifters-elbow/

Mangano, T., Cerruti, P., Repetto, I., Trentini, R., Giovale, M., & Franchin, F. (2015). Chronic Tendonopathy as a Unique Cause of Non Traumatic Triceps Tendon Rupture in a (Risk Factors Free) Bodybuilder: A Case Report. Journal of orthopaedic case reports, 5(1), 58–61. doi.org/10.13107/jocr.2250-0685.257

Ortho Bullets. (2022). Triceps rupture www.orthobullets.com/shoulder-and-elbow/3071/triceps-rupture

Demirhan, M., & Ersen, A. (2017). Distal triceps ruptures. EFORT open reviews, 1(6), 255–259. doi.org/10.1302/2058-5241.1.000038