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Understanding Fish Nutrition: Calories and Health Benefits

Understanding Fish Nutrition: Calories and Health Benefits

For individuals trying to lose weight or improve their diet, can incorporating more fish help improve overall health?

Understanding Fish Nutrition: Calories and Health Benefits

Fish Nutrition

The American Heart Association recommends eating at least two servings of fish each week (American Heart Association, 2021). The type of fish chosen makes a difference, as fish nutrition and calories vary. Some can have a higher calorie count but contain healthy fat.

Nutrition

Comparing fish calories and nutrition data can be tricky. How it is prepared can significantly change its nutritional makeup, and the exact nutrition also varies depending on the variety. As an example, a half portion of a Wild Alaskan Salmon Fillet contains: (U.S. Department of Agriculture. FoodData Central. 2019)

  • Serving Size 1/2 fillet – 154 grams
  • Calories – 280
  • Calories from Fat – 113
  • Total Fat – 12.5 grams
  • Saturated Fat – 1.9 grams
  • Polyunsaturated Fat – 5 grams
  • Monounsaturated Fat – 4.2 grams
  • Cholesterol – 109 milligrams
  • Sodium – 86 milligrams
  • Potassium – 967.12 milligrams
  • Carbohydrates – 0 grams
  • Dietary Fiber – 0 grams
  • Sugars – 0 grams
  • Protein – 39.2 grams

The following guide includes other types of fish based on USDA nutrition data (U.S. Department of Agriculture. FoodData Central). Fish calories and nutrition are listed for a 100-gram or 3.5-ounce serving.

Halibut

  • Raw with skin
  • 116 calories
  • 3 grams fat
  • 0 grams carbohydrate
  • 20 grams protein

Tuna

  • Yellowfin, fresh, raw
  • 109 calories
  • Less than one gram of fat
  • 0 grams carbohydrate
  • 24 grams protein

Cod

  • Atlantic, raw
  • 82 calories,
  • 0.7 grams fat
  • 0 grams carbohydrate
  • 18 grams protein

Mahimahi

  • Raw
  • 85 calories
  • 0.7 grams fat
  • 0 grams carbohydrate
  • 18.5 grams protein

Ocean Perch

  • Atlantic, raw
  • 79 calories
  • 1.4 grams fat
  • 0 grams carbohydrate
  • 15 grams protein

Research suggests that fatty fish is the best for weight loss and improved health. Certain types of fish contain an essential fatty acid called omega-3. This polyunsaturated fat provides the body with various health benefits, like reducing the risk of heart disease. Studies show that individuals who eat seafood at least once per week are less likely to die from heart disease. (National Institutes of Health. National Center for Complementary and Integrative Health, 2024) Researchers also believe that omega-3 fatty acids may help reduce symptoms of rheumatoid arthritis and could even improve brain and eye health. Essential omega-3 fatty acids can be taken as a supplement. However, research has not shown that supplements can provide the same benefits as eating omega-3 foods. (Rizos E. C. et al., 2012)

Benefits

The American Heart Association suggests eating a variety of low-calorie fish that include: (American Heart Association, 2021)

Salmon

  • 3 ounces
  • 175 calories
  • 10 grams fat
  • 1.7 grams of omega-3 fatty acids

Anchovies

  • 3 ounces
  • 111 calories
  • 4 grams fat
  • 1.7 grams of omega-3 fatty acids

Pacific and Jack Mackerel

  • 3 ounces
  • 134 calories
  • 7 grams fat
  • 1.6 grams of omega-3 fatty acids

Pacific Black Cod

  • 3 ounces
  • 70 calories
  • 1 gram fat
  • 1.5 grams of omega-3 fatty acids

Whitefish

  • 3 ounces
  • 115 calories
  • 5 grams fat
  • 1.5 grams of omega-3 fatty acids

Albacore Tuna

  • 3 ounces, canned, packed in water
  • 109 calories
  • 3 grams fat
  • 0.7 grams of omega-3 fatty acids

Atlantic Herring

  • 3 ounces
  • 134 calories
  • 8 grams of fat
  • 1.4 grams of omega-3 fatty acids

Tilapia

  • 4 ounces
  • 145 calories
  • 3 grams of fat
  • 0.1 grams of omega-3 fatty acids

The way that the fish is prepared can change the calorie count. Baked, grilled, and broiled fish are usually the lowest in calories.

Storage and Safety

Fish experts suggest that individuals buy the freshest available. What questions should you ask when visiting the local market?

When was it caught?

The fresher, the better. Fish may remain edible for five days after being caught but may not taste as fresh.

How was it stored?

How the fish is stored and delivered to the market will impact its taste. Fish should be chilled immediately after catching and kept cold throughout delivery and transport.

How does it look and smell?

If the fish has a bad odor, it is likely not fresh. Fresh fish should smell like seawater. If buying fillets, look for a moist texture with clean-cut edges. If the fish is whole, look for clear eyes and a firm texture.

Where is it from?

Buying local fish from sustainable fisheries is recommended but not always possible, depending on where individuals live. There is a Smart Seafood Buying Guide that advises on buying American fish and provides a list of fish with lower mercury levels for health and safety. (Natural Resources Defense Council, 2024)

What is the best way to prepare this fish?

Sometimes, the fishmonger is the best source for simple and healthy recipes and preparation methods. Use fresh fish within two days, or store in the freezer. When ready to use frozen fish, thaw in the refrigerator and never at room temperature. For individuals who don’t like fish taste, there are a few things to help improve the taste. First, try less fishy types. For example, many report that around 100 calories per serving of red snapper tastes less fishy than heavier fish like salmon. Second, try adding fresh herbs and citrus to manage the taste.

Injury Medical Chiropractic and Functional Medicine Clinic works with primary healthcare providers and specialists to develop a personalized treatment plan through an integrated approach to treating injuries and chronic pain syndromes, improving flexibility, mobility, and agility programs to relieve pain and help individuals return to optimal function. Our providers use an integrated approach to create personalized care plans for each patient and restore health and function to the body through nutrition and wellness, functional medicine, acupuncture, Electroacupuncture, and sports medicine protocols. If the individual needs other treatment, they will be referred to a clinic or physician best suited for them. Dr. Jimenez has teamed up with top surgeons, clinical specialists, medical researchers, nutritionists, and health coaches to provide the most effective clinical treatments.


Nutrition Fundamentals


References

American Heart Association. (2021). Fish and Omega-3 Fatty Acids. www.heart.org/en/healthy-living/healthy-eating/eat-smart/fats/fish-and-omega-3-fatty-acids

U.S. Department of Agriculture. FoodData Central. (2019). Fish, salmon, king (chinook), raw (Alaska Native). Retrieved from fdc.nal.usda.gov/fdc-app.html#/food-details/168047/nutrients

National Institutes of Health. National Center for Complementary and Integrative Health. (2024). 7 things to know about omega-3 fatty acids. Retrieved from www.nccih.nih.gov/health/tips/things-to-know-about-omega-fatty-acids

Rizos, E. C., Ntzani, E. E., Bika, E., Kostapanos, M. S., & Elisaf, M. S. (2012). Association between omega-3 fatty acid supplementation and risk of major cardiovascular disease events: a systematic review and meta-analysis. JAMA, 308(10), 1024–1033. doi.org/10.1001/2012.jama.11374

Natural Resources Defense Council. (2024). The smart seafood buying guide: five ways to ensure the fish you eat is healthy for you and for the environment. www.nrdc.org/stories/smart-seafood-buying-guide

Meralgia Paresthetica: Causes, Symptoms, and Treatment Options

Meralgia Paresthetica: Causes, Symptoms, and Treatment Options

Individuals experiencing pain, numbness, tingling, or a burning sensation in the front and outer thigh could have meralgia paresthetica, a nerve entrapment. Can understanding the condition help healthcare providers develop an effective treatment plan?

Meralgia Paresthetica: Causes, Symptoms, and Treatment Options

Meralgia Paresthetica

Meralgia paresthetica, or MP, is also known as Bernhardt-Roth syndrome, lateral femoral cutaneous nerve syndrome, or lateral femoral cutaneous neuralgia. It occurs when the lateral femoral cutaneous nerve, a sensory nerve that passes over the brim of the pelvis and down the front of the thigh, becomes compressed. The nerve supplies information about sensations over the front and outside of the thigh. This can happen for several reasons, including:

  • Recent hip injuries, such as from a motor vehicle collision/accident.
  • Repetitive hip activities, like cycling.
  • Pregnancy
  • Weight gain
  • Wearing tight clothing.

The nerve entrapment condition causes tingling, numbness, and burning pain in the front and/or outer thigh.

Causes

There can be several different causes of this condition, but it is frequently seen in pregnancy, sudden weight gain, wearing tight clothing or belts, and other conditions. (Ivins G. K. 2000) Sometimes, meralgia paresthetica can be caused by medical procedures. For example, the condition can present after an individual has surgery and is in an unusual position for a long period of time, where there is direct external pressure on the nerve. Also, the nerve can become damaged during a surgical procedure. (Cheatham S. W. et al., 2013) This can occur when a bone graft is obtained from the pelvis or anterior hip replacement surgery.

Symptoms

Individuals may experience some or all of the following symptoms (Chung K. H. et al., 2010)

  • Numbness over the outside of the thigh.
  • Pain or burning on the outside of the thigh.
  • Sensitivity to lightly touching the outside of the thigh.
  • Worsening of symptoms with certain positions.
  • Increased symptoms when wearing belts, work belts, or tight-waist clothes.

The symptoms may come and go or be persistent. Some individuals are hardly noticeable and do not impact their lives or activities, while others can be very bothersome and cause significant pain. (Scholz C. et al., 2023)

Treatment

Treatment depends on how long the injury has been present and the frequency and severity of the condition.

Clothing Modifications

If the cause is due to tight clothing, belts, or work belts, then garment modification should alleviate symptoms.

Pregnancy

Pregnant women usually find complete relief of their symptoms after delivery. (Hosley, C. M., and McCullough, L. D. 2011)

Weight Loss Program

If recent weight gain is thought to contribute to the condition, then a weight loss program may be recommended.

Cortisone Injections

If simple steps do not relieve symptoms, a cortisone injection around the nerve area may be recommended. The goal is to reduce inflammation that contributes to nerve pressure (Houle S. 2012) . Cortisone injections may be a definitive treatment or a temporary treatment.

Chiropractic

Chiropractic care can be an effective, natural, and safe treatment. Adjustments can help relieve pressure on the lateral femoral cutaneous nerve (LFCN) by realigning the spine and restoring nerve function. Chiropractors may also use soft tissue therapies, such as massage, to relieve muscle tension and support the body’s healing process. Other chiropractic techniques that may be used include:

  • Pelvic mobilizations
  • Myofascial therapy
  • Transverse friction massage
  • Stretching exercises
  • Stabilization exercises for the core and pelvis
  • Therapeutic kinesiology tape

A chiropractic treatment program may include 10–15 treatments over 6–8 weeks, but the number of treatments needed will vary from person to person. If there’s no noticeable progress after 3–4 weeks, it may be time to consult a specialist or surgeon.

Surgery

Surgery is rarely necessary. However, a surgical procedure may be considered when all conservative treatments fail to provide relief. (Schwaiger K. et al., 2018) A surgeon dissects and identifies the nerve, looks for compression locations, and tries to free the nerve from any areas where it may be pinched. Alternatively, some surgeons transect/cut the nerve so it no longer causes problems. If the transection procedure is performed, there will be a permanent area of numbness over the front of the thigh.

Injury Medical Chiropractic and Functional Medicine Clinic works with primary healthcare providers and specialists to develop a customized treatment plan to relieve pain, treat injuries, improve flexibility, mobility, and agility, and help individuals return to optimal function. If other treatments are needed, Dr. Jimenez has teamed up with top surgeons, clinical specialists, medical researchers, and rehabilitation providers to provide the most effective treatments.


Chiropractic Care for Leg Instability


References

Ivins G. K. (2000). Meralgia paresthetica, the elusive diagnosis: clinical experience with 14 adult patients. Annals of surgery, 232(2), 281–286. doi.org/10.1097/00000658-200008000-00019

Cheatham, S. W., Kolber, M. J., & Salamh, P. A. (2013). Meralgia paresthetica: a review of the literature. International journal of sports physical therapy, 8(6), 883–893.

Chung, K. H., Lee, J. Y., Ko, T. K., Park, C. H., Chun, D. H., Yang, H. J., Gill, H. J., & Kim, M. K. (2010). Meralgia paresthetica affecting parturient women who underwent cesarean section -A case report-. Korean journal of anesthesiology, 59 Suppl(Suppl), S86–S89. doi.org/10.4097/kjae.2010.59.S.S86

Scholz, C., Hohenhaus, M., Pedro, M. T., Uerschels, A. K., & Dengler, N. F. (2023). Meralgia Paresthetica: Relevance, Diagnosis, and Treatment. Deutsches Arzteblatt international, 120(39), 655–661. doi.org/10.3238/arztebl.m2023.0170

Hosley, C. M., & McCullough, L. D. (2011). Acute neurological issues in pregnancy and the peripartum. The Neurohospitalist, 1(2), 104–116. doi.org/10.1177/1941875211399126

Houle S. (2012). Chiropractic management of chronic idiopathic meralgia paresthetica: a case study. Journal of chiropractic medicine, 11(1), 36–41. doi.org/10.1016/j.jcm.2011.06.008

Schwaiger, K., Panzenbeck, P., Purschke, M., Russe, E., Kaplan, R., Heinrich, K., Mandal, P., & Wechselberger, G. (2018). Surgical decompression of the lateral femoral cutaneous nerve (LFCN) for Meralgia paresthetica treatment: Experimental or state of the art? A single-center outcome analysis. Medicine, 97(33), e11914. doi.org/10.1097/MD.0000000000011914

Unlocking the Potential of Magnesium Spray: A Guide

Unlocking the Potential of Magnesium Spray: A Guide

When muscle pains and aches present from health conditions, work, exercise, housework, etc., many individuals turn to topical sprays, creams, ointments, and gels to bring relief. Can magnesium spray be beneficial in the fight against neuromusculoskeletal pain?

Unlocking the Potential of Magnesium Spray: A Guide

Magnesium Spray

Magnesium spray is a liquid form of magnesium applied externally to the skin that has been marketed to promote muscle relaxation, improve sleep, and manage migraines. However, studies of its effectiveness have had mixed results. Some studies have shown that topical use can:

  • Improve chronic muscle and joint pain. Example: fibromyalgia.
  • Decrease the frequency and severity of nerve pain symptoms. Example: peripheral neuropathy.
  • Reduce the incidence and severity of an intubation-related sore throat after surgery.
  • Further studies of various groups are necessary to clarify the optimal dose for each condition and to determine how topical magnesium affects magnesium blood levels.

What is It?

Magnesium is a mineral that has an important role in many of the body’s processes and is essential for the following (Gröber U. et al., 2017)

  • Nerve transmission
  • Muscle contraction
  • Blood pressure regulation
  • Blood sugar regulation
  • Protein production
  • DNA and RNA production

Currently, there is no recommended dosage for topical magnesium use. However, some major health institutions have established a recommended daily amount taken by mouth. Listed are the recommended daily magnesium intake based on age and other factors. (National Institutes of Health Office of Dietary Supplements, 2022)

  • 14 to 18 years old: 410 mg for males, 360 mg for females and when lactating, and 400 mg when pregnant.
  • 19 to 30 years old: 400 mg for males, 310 mg for females and when lactating, and 350 mg when pregnant.
  • 31 to 50 years old: 420 mg for males, 320 mg for females and when lactating, and 360 mg when pregnant.
  • 51 years old and above: 420 mg for males and 320 mg for females.

Although self-care is appropriate for minor injuries or exercise, individuals are encouraged to see their healthcare provider for severe musculoskeletal pain symptoms.

Benefits

Though taking oral magnesium supplements is common, there is limited research on using magnesium on the skin to improve magnesium levels. Studies comparing the absorption of magnesium taken by mouth with the spray applied to the skin require further research. However, some studies look at the localized effect of magnesium spray on improving a sore throat after surgery and nerve, muscle, and joint pain.

Intubation-Related Sore Throat

Topical magnesium reduced the severity of sore throat after surgery in individuals undergoing tracheal intubation compared to a placebo. (Kuriyama, A. et al., 2019) However, further studies are necessary to clarify the optimal dose.

Nerve Pain

Peripheral neuropathy is nerve damage that causes a tingling and numbing sensation in the arms or legs. In a study of individuals with chronic kidney disease, the daily application of magnesium sprays to limbs affected by peripheral neuropathy for twelve weeks decreased the frequency and severity of nerve pain symptoms. However, one limitation was that it was performed mostly in females. (Athavale, A. et al., 2023)

Chronic Muscle and Joint Pain

A small study assessed whether applying magnesium to the skin could improve the quality of life of female participants with fibromyalgia – a chronic condition that causes muscle and joint pain, fatigue, and other symptoms. The study found that four sprays of magnesium chloride applied twice daily to the upper and lower limbs for four weeks could benefit those with fibromyalgia. However, further research with larger studies is needed to confirm the results. (Engen D. J. et al., 2015)

Does The Spray Increase Overall Magnesium Levels?

Magnesium is transported into cells through magnesium transporters. The outer layer of the skin does not contain these transporters, so absorption occurs in the small areas of the sweat glands and hair follicles. (Gröber U. et al., 2017) One study suggested that applying magnesium to the skin can help with magnesium deficiency within four to six weeks, compared to four to 12 months in the case of oral magnesium supplementation. However, there is minimal research on topical magnesium and its impact on magnesium levels. Another study suggested that 56 mg of magnesium cream applied daily on the skin for 14 days had no statistically significant effect on magnesium blood levels. Although the results were statistically insignificant, a clinically relevant increase in magnesium blood levels was observed. (Kass, L. et al., 2017) Because it remains unclear if magnesium absorption via the skin is more effective than by mouth, further studies are necessary to confirm the amount of magnesium absorbed into the skin.

Using The Spray

In one study, a magnesium chloride solution was poured into a spray bottle and applied as follows (Engen D. J. et al., 2015)

  • The solution was sprayed into the palm and applied evenly on the affected area.
  • There is a four-hour wait time between spray dose applications.
  • Individuals should wait at least one hour after application before showering or washing the product off.
  • Leave the product on the skin throughout the day and wash it off before bed.
  • Rinse the solution off with water if the skin becomes irritated.
  • Avoid applying to open wounds.

Precautions

Avoid magnesium chloride sprays if you are allergic to them or their components. If you have a severe allergic reaction, such as itching, hives, or shortness of breath, seek immediate medical attention. Topically applied magnesium solution has no known side effects other than skin irritation. (Engen D. J. et al., 2015)

Injury Medical Chiropractic and Functional Medicine Clinic works with primary healthcare providers and specialists to develop a personalized treatment plan through an integrated approach to treating injuries and chronic pain syndromes, improving flexibility, mobility, and agility programs to relieve pain and help individuals return to optimal function. If other treatments are needed, Dr. Jimenez has teamed up with top surgeons, clinical specialists, medical researchers, and rehabilitation providers to provide the most effective treatments.


Why Choose Chiropractic?


References

Gröber, U., Werner, T., Vormann, J., & Kisters, K. (2017). Myth or Reality-Transdermal Magnesium?. Nutrients, 9(8), 813. doi.org/10.3390/nu9080813

National Institutes of Health Office of Dietary Supplements. (2022). Magnesium. Retrieved from ods.od.nih.gov/factsheets/Magnesium-HealthProfessional/#h2

Kuriyama, A., Maeda, H., & Sun, R. (2019). Topical application of magnesium to prevent intubation-related sore throat in adult surgical patients: a systematic review and meta-analysis. Application topique de magnésium pour prévenir les maux de gorge liés à l’intubation chez les patients chirurgicaux adultes: revue systématique et méta-analyse. Canadian journal of anaesthesia = Journal canadien d’anesthesie, 66(9), 1082–1094. doi.org/10.1007/s12630-019-01396-7

Athavale, A., Miles, N., Pais, R., Snelling, P., & Chadban, S. J. (2023). Transdermal Magnesium for the Treatment of Peripheral Neuropathy in Chronic Kidney Disease: A Single-Arm, Open-Label Pilot Study. Journal of palliative medicine, 26(12), 1654–1661. doi.org/10.1089/jpm.2023.0229

Engen, D. J., McAllister, S. J., Whipple, M. O., Cha, S. S., Dion, L. J., Vincent, A., Bauer, B. A., & Wahner-Roedler, D. L. (2015). Effects of transdermal magnesium chloride on quality of life for patients with fibromyalgia: a feasibility study. Journal of integrative medicine, 13(5), 306–313. doi.org/10.1016/S2095-4964(15)60195-9

Kass, L., Rosanoff, A., Tanner, A., Sullivan, K., McAuley, W., & Plesset, M. (2017). Effect of transdermal magnesium cream on serum and urinary magnesium levels in humans: A pilot study. PloS one, 12(4), e0174817. doi.org/10.1371/journal.pone.0174817

Swayback Posture: Symptoms, Causes, and Effective Treatment

Swayback Posture: Symptoms, Causes, and Effective Treatment

Can chiropractic treatment alleviate pain and correct swayback posture, a postural deformity that can cause lower back pain and mobility issues, for individuals experiencing it?

Swayback Posture: Symptoms, Causes, and Effective Treatment

Swayback Posture

Swayback posture is a common dysfunction involving the pelvis and hip joints tilted forward in front. This causes the pelvis to shift forward, which exaggerates the curves in the lower and upper back, known as lordosis and kyphosis. The pelvis may tilt backward relative to the upper half, causing the buttocks to tuck under. The pelvis coordinates the movements of the head, shoulders, and trunk with those of the feet, legs, and thighs. A neutral pelvis, the ideal position, generally supports a mild curve/normal lordosis in the lower back. The small arch helps the body balance the skeletal parts as they work together to support and move the body’s weight. When a postural deformity occurs, one or more bones may shift from their ideal position to compensate for any pain or loss of balance caused by the original deviation. This deviation can lead to muscle strain, ligament sprain, and/or pain. (Czaprowski, D. et al., 2018)

Postural Deviations

Swayback posture causes the thoracic spine to move backward and round over into kyphosis. At the same time, the pelvis is tilted forward, resulting in an exaggeration of the normal lumbar lordosis. (Czaprowski, D. et al., 2018)

  • Healthcare providers, chiropractors, and physical therapists use exact measurements to define and treat postural deformities.
  • A neutral pelvis is a position of balance the entire body uses to help it stay upright, move, and be pain-free.
  • The ideal or neutral pelvic tilt is a 30-degree angle between the vertical and the plane that passes through the top of the sacrum and the axis of the hip joint socket in the front.
  • Swayback posture causes the pelvis to tilt forward another 10 degrees.
  • As a result, the spine compensates, exaggerating the curves in the lower back/lordotic curve and in the mid and upper back/kyphotic curve.
  • When viewed from the side, individuals can see a backward movement of the thoracic spine.
  • In front, the chest tends to sink in.

Muscle Group Imbalances

Healthcare providers look at different contributors or causes of postural deviations. Swayback can sometimes be associated with strength imbalances between muscle groups that move the hips, spine, and pelvis and hold the body upright. This includes:

  • Weakened hip flexors and overly strong or tense hip extensors/the hamstrings.
  • Tight upper abdominals, weak lower abdominals, and weak mid-back muscles may also contribute.
  • A corrective exercise program after seeing a physical therapist will help address some or all underlying muscle imbalances.

Risk Factors

Because weight in the abdominal region pulls the pelvis forward, pregnant women and obese individuals can have an increased risk of developing a swayback posture. (Vismara, L. et al., 2010)

Symptoms

The symptoms of swayback posture often include:

  • Severe lower back pain
  • Difficulty sitting or standing for long periods
  • Difficulty performing certain physical activities.
  • Tightness in the hamstrings and hip flexors
  • Tightness in the upper back muscles
  • Headaches or migraines

Chiropractic Treatment

Chiropractic adjustments are a common treatment used to correct swayback posture and can be corrected through various treatments. These include:

  • Spinal adjustments: The doctor applies pressure to specific spine areas to realign them and help restore proper spinal function.
  • Non-surgical decompression
  • Massage therapies
  • Muscle Energy Technique, or MET, improves muscle strength, flexibility, and function.
  • Acupuncture
  • Exercises to strengthen and stabilize the core muscles
  • Lifestyle adjustments to help reduce stress on the spine
  • Posture exercises
  • Biomechanics training

Injury Medical Chiropractic and Functional Medicine Clinic works with primary healthcare providers and specialists to develop a personalized care plan for each patient through an integrated approach to treating injuries and chronic pain syndromes, improving flexibility, mobility, and agility programs to relieve pain and help individuals return to optimal function. If other treatments are needed, Dr. Jimenez has teamed up with top surgeons, clinical specialists, medical researchers, and rehabilitation providers to provide the most effective treatments.


How I Gained My Mobility Back With Chiropractic Care


References

Czaprowski, D., Stoliński, Ł., Tyrakowski, M., Kozinoga, M., & Kotwicki, T. (2018). Non-structural misalignments of body posture in the sagittal plane. Scoliosis and spinal disorders, 13, 6. doi.org/10.1186/s13013-018-0151-5

Vismara, L., Menegoni, F., Zaina, F., Galli, M., Negrini, S., & Capodaglio, P. (2010). Effect of obesity and low back pain on spinal mobility: a cross sectional study in women. Journal of neuroengineering and rehabilitation, 7, 3. doi.org/10.1186/1743-0003-7-3

Heat-Related Illnesses and their Impact on the Musculoskeletal System

Heat-Related Illnesses and their Impact on the Musculoskeletal System

Do individuals with muscle pain know the difference between heat stroke and heat exhaustion and can find ways to stay cool?

Introduction

As the temperature rises worldwide, many individuals are enjoying their time outside and getting more sun in their lives. However, rising temperatures also mean the rise of heat-related illnesses. The two most common heat-related illnesses are heat stroke and heat exhaustion, which can impact an individual’s musculoskeletal system and have different symptoms in terms of severity. Today’s article focuses on the differences between these two heat-related illnesses, how they affect the musculoskeletal system and treatments to stay cool while reducing muscle pain. We discuss with certified associated medical providers who consolidate our patients’ information to assess heat-related illnesses associated with muscle pain. We also inform and guide patients while asking their associated medical provider intricate questions to integrate treatments and ways to stay cool when temperatures rise and reduce muscle pain. Dr. Jimenez, D.C., includes this information as an academic service. Disclaimer.

 

Heat Exhaustion VS Heat Stroke

By understanding the differences between heat stroke and heat exhaustion is crucial. Do you often feel overheated after simple activities? Have you experienced muscle pain or cramps? Or do you struggle to cool down? These are all signs of heat-related illnesses. Heat-related illnesses often occur when the body cannot dissipate heat, leading to dysfunctional thermoregulation. (Gauer & Meyers, 2019) The two most common types are heat exhaustion and heat stroke. While they share similar causes, they differ significantly in terms of severity, symptoms, and treatment. (Prevention, 2022)

 

 

 

Heat exhaustion is a mild condition that often occurs when the human body loses excessive water and salt from profusely sweating. This causes the external temperatures to be more moderate when associated with intense physical activity. (Leiva & Church, 2024) Additionally, when a person is dealing with heat exhaustion, some of the symptoms that they will experience include:

  • Heavy sweating
  • Fatigue
  • Headaches
  • Muscle cramps
  • Pale, cool, moist skin
  • Fast, weak pulse

Even though heat exhaustion is a mild heat-related condition, it can develop into severe heat-related conditions like heat stroke if not treated immediately. Heat stroke is a severe heat-related illness that is not only life-threatening but has two forms that can affect a person’s body temperature: classic and exertional. Classic heat stroke often affects elderly individuals who have chronic medical conditions, while exertional heat stroke affects healthy individuals who are doing strenuous physical activities. (Morris & Patel, 2024) Some of the symptoms associated with heat stroke include:

  • High body temperature (104°F or higher)
  • Hot, red, dry skin
  • Rapid, strong pulse
  • Confusion
  • Seizures
  • Loss of consciousness

 

How Do Both Conditions Affect The Muscles?

Both heat-related illnesses can have a significant effect on the musculoskeletal system and cause muscle pain to not only the extremities but also the entire body system. The issue affects the musculoskeletal system and can lead to painful muscle cramps, involuntary muscle contractions, and muscle pain. Since muscle pain is a multi-factorial condition, heat-related illnesses like heat stroke and exhaustion can influence a person’s lifestyle and comorbid health factors. (Caneiro et al., 2021) When that happens, many individuals can seek treatments to stay cool from heat exhaustion and heat stroke and reduce muscle pain.

 


Secrets Of Optimal Wellness-Video


Treatments For Staying Cool & Reduce Muscle Pain

While it is important to understand the difference between heat stroke and heat exhaustion due to the crucial timing and effective interventions, finding various treatments to reduce muscle pain and find ways to stay cool is important. Many individuals can wear technology to monitor the person’s physiological status actively and prevent injuries while providing early detection for heat-related illnesses. (Dolson et al., 2022) This can reduce the chances of muscle pain and help regulate body temperature. For individuals dealing with heat exhaustion, they can:

  • Move to a cooler environment
  • Be well-hydrated with water and electrolyte-rich drinks
  • Rest
  • Wear cool clothes to lower body temperature

For individuals dealing with heat stroke, they can:

  • Call emergency services immediately
  • Apply cool clothes or ice packs to the body
  • Monitor vital signs

Both treatments can ensure positive results in preventing life-threatening situations that can affect the musculoskeletal system.

 

Conclusion

Given the significant impact both heat stroke and heat exhaustion can have on the musculoskeletal system, it’s essential to take proactive measures. Proper hydration, cooling, and rest can help manage and alleviate muscle pain associated with these heat-related illnesses. By staying informed, maintaining hydration, and taking proactive steps to protect yourself from excessive heat, you can significantly reduce the chances of these heat-related illnesses affecting your outdoor activities.

 


References

Caneiro, J. P., Bunzli, S., & O’Sullivan, P. (2021). Beliefs about the body and pain: the critical role in musculoskeletal pain management. Braz J Phys Ther, 25(1), 17-29. doi.org/10.1016/j.bjpt.2020.06.003

Dolson, C. M., Harlow, E. R., Phelan, D. M., Gabbett, T. J., Gaal, B., McMellen, C., Geletka, B. J., Calcei, J. G., Voos, J. E., & Seshadri, D. R. (2022). Wearable Sensor Technology to Predict Core Body Temperature: A Systematic Review. Sensors (Basel), 22(19). doi.org/10.3390/s22197639

Gauer, R., & Meyers, B. K. (2019). Heat-Related Illnesses. American Family Physician, 99(8), 482-489. www.ncbi.nlm.nih.gov/pubmed/30990296

www.aafp.org/pubs/afp/issues/2019/0415/p482.pdf

Leiva, D. F., & Church, B. (2024). Heat Illness. In StatPearls. www.ncbi.nlm.nih.gov/pubmed/31971756

Morris, A., & Patel, G. (2024). Heat Stroke. In StatPearls. www.ncbi.nlm.nih.gov/pubmed/30725820

Prevention, C. f. D. C. a. (2022). Heat stress — heat related illness. The National Institute for Occupational Safety and Health (NIOSH) Retrieved from www.cdc.gov/niosh/topics/heatstress/heatrelillness.html#cramps

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Discover the Best Fruits Low in Sugar for a Balanced Diet

Discover the Best Fruits Low in Sugar for a Balanced Diet

Can fruit help with a sweet craving for individuals trying to limit sugar?

Discover the Best Fruits Low in Sugar for a Balanced Diet

Fruits Low In Sugar

Fruits and their natural sugars: Whether following a low-carbohydrate diet or having diabetes and watching your A1C, many have heard that fruit is either bad or okay because of its natural sugars. Sugars in fruit are natural. How they affect blood sugar depends on various factors, like which foods they’re paired with and if diabetes is a factor. Counting carbs or noting the glycemic index or glycemic load of foods being eaten, understanding low-sugar fruits can help make choices that best fit your dietary needs. Certain fruits are considered lower in sugar because they contain fewer carbohydrates and sugar, allowing you to consume a larger portion.

  • One serving of fruit has about 15 grams of carbohydrates.
  • A serving is one small apple, half a medium-sized banana, or a cup of berries.
  • Fruits like berries can be eaten in more significant portions for the same amount of carbohydrates but less sugar.

Fruits

Low-sugar fruits include:

  • Lemons and Limes
  • Rhubarb
  • Apricots
  • Cranberries
  • Guava
  • Raspberries
  • Blackberries
  • Kiwi
  • Figs
  • Tangerines
  • Grapefruit

Natural Sugar

How much fruit an individual eats may differ if they follow a specific low-carb meal plan or are counting or modifying their carbohydrate intake because of diabetes. Adults should consume two cups of fruit or juice or a half-cup of dried fruit daily. (U.S. Department of Health and Human Services and U.S. Department of Agriculture, 2015) Most fruits have a low glycemic index/GI because of the amount of fiber they contain and because the sugar is mostly fructose. However, dried fruits like raisins, dates, sweetened cranberries, melons, and pineapples have a medium glycemic index. Sweetened dried fruits have an even higher glycemic index.

Fruits from Lowest to Highest Content

Fruits are a healthy way to satisfy a sweet craving. The fruits listed are ranked from lowest to highest sugar content, providing a quick way to assess sugar content. The fruits lowest in sugar have some of the highest nutritional values, plus antioxidants and other phytonutrients.

Limes and Lemons

Limes contain:

  • 1.1 grams of sugar
  • 7 grams of carbs
  • 1.9 grams of fiber per fruit

Lemons contain:

  • 1.5 grams of sugar
  • 5.4 grams of carbs
  • 1.6 grams of fiber per fruit

Rhubarb

Rhubarb contains:

  • 1.3 grams of sugar
  • 5.5 grams of carbs
  • 2.2 grams of fiber per cup

Apricots

Apricots contain:

  • 3.2 grams of sugar
  • 3.8 grams of carbs
  • 0.7 grams of fiber per small apricot

Apricots are available fresh in spring and early summer. They can be eaten whole, skin and all. However, watch portions of dried apricots as they shrink when dried.

Cranberries

Cranberries contain:

  • 3.8 grams of sugar
  • 12 grams of carbs
  • 3.6 grams of fiber per cup when fresh.

While they’re low in sugar, be aware that they are usually sweetened when dried or used in a recipe.

Guavas

Guava contains:

  • 4.9 grams of sugar
  • 7.9 grams of carbs
  • 3 grams of fiber per fruit

They can be sliced or dipped in salty sauce, including the rind.

Berries

These fruits generally have the lowest sugar content and are among the highest in fiber, antioxidants, and other nutrients. Berries, lemon, and lime can be added to flavor water.

Raspberries

Raspberries contain:

  • 5.4 grams of sugar
  • 14.7 grams of carbs
  • 8 grams of fiber per cup

Eat a handful, or use them as a topping or ingredient. Fresh in summer or frozen year-round.

Blackberries

Blackberries contain:

  • 7 grams of sugar
  • 13.8 grams of carbs
  • 7.6 grams of fiber per cup

Strawberries contain:

  • 7.4 grams of sugar
  • 11.7 grams of carbs
  • 3 grams of fiber per cup

Berries are excellent choices for a snack, a fruit salad, or an ingredient in a smoothie, sauce, or dessert.

Blueberries

Blueberries contain:

  • 15 grams of sugar
  • 21 grams of carbs
  • 3.6 grams of fiber per cup

While blueberries are higher in sugar than other berries, they’re packed with powerful antioxidants.

Kiwis

Kiwis contain:

  • 6.2 grams of sugar
  • 10.1 grams of carbs
  • 2.1 grams of fiber per kiwi

Kiwis have a mild flavor, and the seeds and skin can be eaten.

Figs

Figs contain:

  • 6.5 grams of sugar
  • 7.7 grams of carbs
  • 1.2 grams of fiber per small fig

These figures are for fresh figs, and it may be harder to estimate for dried figs of different varieties, which can have 5 to 12 grams of sugar per fig.

Tangerines

Tangerines contain:

  • 8 grams of sugar
  • 10.1 grams of carbs
  • 1.3 grams of fiber per medium fruit

These low-sugar citrus fruits have less sugar than oranges and are great for salads. They are also portable, making them healthy additions to packed lunches and snacks.

Grapefruit

Grapefruit contains:

  • 8.5 grams of sugar
  • 13 grams of carbs
  • 2 grams of fiber per half fresh grapefruit

Individuals can enjoy fresh grapefruit in a fruit salad or by itself, adjusting the amount of sugar or sweetener.

Low-Carb Diets

Individuals following a low-carb eating plan should remember that while some popular diet plans factor in the glycemic index or glycemic load of foods, others only factor in the number of carbohydrates.

20 Grams of Carbohydrates or Less

  • Individuals will likely not consume fruit or rarely substitute it for other food items with less than 20 grams of carbohydrates daily.
  • Nutrients are obtained from vegetables.
  • Some diets don’t even allow low-sugar fruits in the first phase.

20-50 Grams of Carbohydrates

  • These eating plans allow 20 to 50 grams of carbs daily, allowing room for one daily fruit serving.

50-100 Grams of Carbohydrates

  • If the eating plan allows 50 to 100 grams of carbs per day, individuals may be able to follow the FDA guidelines for two fruit servings a day, as long as other resources of carbohydrates are limited.
  • Other popular plans, like the Paleo diet and Whole30, don’t place a limit on fruit.
  • Although not necessarily a low-carb diet, Weight Watchers also allows fruit.

In general, individuals following a low-carb diet are recommended to try to eat fruits low in sugar.

Diabetes

Fruit choices when managing diabetes will depend on the type of diet being followed. For example, when counting carbohydrates, individuals should know that 1/2 cup of frozen or canned fruit has about 15 grams of carbohydrates.

  • Enjoy 3/4 to 1 cup of fresh berries, melon, or 17 grapes for the same carbs.
  • If using the plate method, add a small piece of whole fruit or 1/2 cup of fruit salad to the plate.
  • When using the glycemic index to guide food choices, remember that most fruits have a low GI and are encouraged.
  • Melons, pineapples, and dried fruits have medium GI index values, so watch portion size.

Individuals with diabetes may want to consult their primary doctor or a registered dietitian to help design an eating plan that incorporates fruit appropriately.


Body In Balance: Chiropractic, Fitness, and Nutrition


References

U.S. Department of Health and Human Services and U.S. Department of Agriculture. 2015–2020 Dietary Guidelines for Americans. 8th Edition. December 2015. Available at health.gov/dietaryguidelines/2015/guidelines/

Boost Your Health with Cycling and Osteoarthritis

Boost Your Health with Cycling and Osteoarthritis

Can individuals with osteoarthritis can incorporate cycling to reduce joint pain and regain their joint mobility?

Introduction

The joints in the musculoskeletal system allow the individual to be mobile while allowing the extremities to do their jobs. Just like the muscles and ligaments of the body, the joints can also wear and tear through repetitive motions, leading to joint pain in the extremities. Over time, the wear and tear from the joints can lead to the potential development of osteoarthritis, which then can affect joint mobility and lead to a life of pain and misery for individuals. However, numerous ways exist to reduce osteoarthritis’s pain-like symptoms and help restore joint mobility through cycling. Today’s article looks at how osteoarthritis affects the joints, how cycling is incorporated for osteoarthritis, and how it can reduce joint pain. We discuss with certified associated medical providers who consolidate our patients’ information to assess osteoarthritis and its associated pain symptoms affecting the joints in the extremities. We also inform and guide patients while asking their associated medical provider intricate questions to integrate cycling into their personalized treatment plan to manage the pain correlated with osteoarthritis affecting their joints. Dr. Jimenez, D.C., includes this information as an academic service. Disclaimer.

 

Osteoarthritis Affecting Joint Mobility

Do you feel pain and stiffness every morning in your joints only for it to feel better throughout the day? Do you experience pain in your knees, hips, and hands? Or have you noticed that your range of motion has decreased drastically? Many individuals, both young and old, can be affected by these pain-like issues and could be at risk of developing osteoarthritis in their joints. Osteoarthritis is the largest and most common musculoskeletal condition that causes a disturbance of the inflammatory cytokine balance, damaging the cartilage and other intra-articular structures surrounding the joints. (Molnar et al., 2021) This is because osteoarthritis develops over time, causing the cartilage to wear away and causing the connecting bones to rub against each other. This, in turn, can affect the extremity’s joint mobility, causing symptoms of stiffness, pain, swelling, and reduced range of motion to the joints.

 

 

Additionally, osteoarthritis is multifactorial as it can cause an imbalance in the joints due to genetics, environmental, metabolic, and traumatic factors that can contribute to its development. (Noriega-Gonzalez et al., 2023) This is because repetitive motions and environmental factors can impact the body and cause overlapping risk profiles to correlate with osteoarthritis. Some overlapping risk profiles associated with osteoarthritis are pathological changes in the joint structure that cause abnormal loading on the joints, which causes joint malalignment and muscle weakness. (Nedunchezhiyan et al., 2022) This causes many people to be in constant pain and trying to find relief from joint pain associated with osteoarthritis.

 


Chiropractic Solutions For Osteoarthritis-Video


Cycling For Osteoarthritis

Engaging in physical activities may seem daunting when managing osteoarthritis symptoms, but it can help restore joint mobility while reducing the pain associated with osteoarthritis. One of the physical activities that has little impact and does not impact the joints is cycling. Cycling for osteoarthritis has many beneficial properties as it can:

  • Strengthen surrounding muscles
  • Retain joint mobility
  • Improve range of motion
  • Weight management
  • Enhancing cardiovascular health

Cycling can help the individual focus on strengthening the lower extremity muscles surrounding the joints, which can help improve pain and functionality. (Katz et al., 2021) This, in turn, helps provide better support and stability to the joints, thus reducing overload on the body while minimizing the risk of injuries. Additionally, cycling can help improve many individuals looking for a healthier change and increase bone mineral density in the joints, thus decreasing the risk of fractures. (Chavarrias et al., 2019)

 

Cycling Reducing Joint Pain

Cycling is a safe and effective exercise for anyone, whether they’re just starting or haven’t been active for a while. The key to optimal recovery and joint functionality is to consult a doctor. This ensures that cycling is a safe option for you, helps you choose the right bike, and provides guidance on how to start slowly, warm up and stretch, maintain proper form, and stay consistent with the cycling sessions. This professional guidance is crucial, as it allows many individuals with joint pain to achieve complete functional recovery to their joints. (Papalia et al., 2020) Cycling is an excellent way to manage osteoarthritis and its associated symptoms. For many individuals with osteoarthritis, this low-impact exercise can be a game-changer, promoting muscle strengthening, improving joint range of motion, and helping alleviate osteoarthritis symptoms.

 


References

Chavarrias, M., Carlos-Vivas, J., Collado-Mateo, D., & Perez-Gomez, J. (2019). Health Benefits of Indoor Cycling: A Systematic Review. Medicina (Kaunas, Lithuania), 55(8). doi.org/10.3390/medicina55080452

Katz, J. N., Arant, K. R., & Loeser, R. F. (2021). Diagnosis and Treatment of Hip and Knee Osteoarthritis: A Review. JAMA, 325(6), 568-578. doi.org/10.1001/jama.2020.22171

Molnar, V., Matisic, V., Kodvanj, I., Bjelica, R., Jelec, Z., Hudetz, D., Rod, E., Cukelj, F., Vrdoljak, T., Vidovic, D., Staresinic, M., Sabalic, S., Dobricic, B., Petrovic, T., Anticevic, D., Boric, I., Kosir, R., Zmrzljak, U. P., & Primorac, D. (2021). Cytokines and Chemokines Involved in Osteoarthritis Pathogenesis. Int J Mol Sci, 22(17). doi.org/10.3390/ijms22179208

Nedunchezhiyan, U., Varughese, I., Sun, A. R., Wu, X., Crawford, R., & Prasadam, I. (2022). Obesity, Inflammation, and Immune System in Osteoarthritis. Front Immunol, 13, 907750. doi.org/10.3389/fimmu.2022.907750

Noriega-Gonzalez, D., Caballero-Garcia, A., Roche, E., Alvarez-Mon, M., & Cordova, A. (2023). Inflammatory Process on Knee Osteoarthritis in Cyclists. J Clin Med, 12(11). doi.org/10.3390/jcm12113703

Papalia, R., Campi, S., Vorini, F., Zampogna, B., Vasta, S., Papalia, G., Fossati, C., Torre, G., & Denaro, V. (2020). The Role of Physical Activity and Rehabilitation Following Hip and Knee Arthroplasty in the Elderly. J Clin Med, 9(5). doi.org/10.3390/jcm9051401

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