Sazawal, S., Black, R. E., Bhan, M. K., Jalla, S., Sinha, A., and Bhandari, N. Efficacy
of zinc supplementation in reducing the incidence and prevalence of acute diarrhea — a community - based, double - blind, controlled trial.
Randomized, controlled trial
of zinc supplementation in malnourished Bangladeshi children with acute diarrhea.
Boran, P., Tokuc, G., Vagas, E., Oktem, S., and Gokduman, M. K. Impact
of zinc supplementation in children with acute diarrhoea in Turkey.
Hong, Z. Y., Zhang, Y. W., Xu, J. D., Zhou, J. D., Gao, X. L., Liu, X. G., and Shi, Y. Y. Growth promoting effect
of zinc supplementation in infants of high - risk pregnancies.
Birmingham CL, Goldner EM, Bakan R. Controlled trial
of zinc supplementation in anorexia nervosa.
Roussel, A. M., Kerkeni, A., Zouari, N., Mahjoub, S., Matheau, J. M., and Anderson, R. A. Antioxidant effects
of zinc supplementation in Tunisians with type 2 diabetes mellitus.
A double - blind trial
of zinc supplementation in pregnancy.
A trial
of zinc supplementation in young rural Gambian children.
Patel, A., Mamtani, M., Dibley, M. J., Badhoniya, N., and Kulkarni, H. Therapeutic value
of zinc supplementation in acute and persistent diarrhea: a systematic review.
Dutta, P., Mitra, U., Datta, A., Niyogi, S. K., Dutta, S., Manna, B., Basak, M., Mahapatra, T. S., and Bhattacharya, S. K. Impact
of zinc supplementation in malnourished children with acute watery diarrhoea.
Hemalatha, P., Bhaskaram, P., and Khan, M. M. Role
of zinc supplementation in the rehabilitation of severely malnourished children.
In addition, results from a pooled analysis of randomized controlled trials
of zinc supplementation in developing countries suggest that zinc helps reduce the duration and severity of diarrhea in zinc - deficient or otherwise malnourished children [62].
Not exact matches
Palmer reviews the evidence
in terms
of timing
of solids, covering calorie, protein, iron,
zinc, fatty acid needs and more, and fnds no evidence
of a need to begin any kind
of supplementation to the average exclusive breastmilk diet
in the first year
of life after term birth, and beyond.
Diarrhea
in children: Not as much
of a concern
in the US, but the World Health Organization recommends
zinc supplementation for children with acute diarrhea, especially
in the developing world, as this is a leading cause
of mortality
in children around the world.
In fact, one study found that 500 milligrams
of spirulina daily combined with
zinc supplementation was enough to reduce arsenic toxicity by almost half!
A study published
in Obesity Surgery [1] found that
in obese patients that had lost hair due to rapid weight loss,
zinc supplementation led to not only slowing down
of hair loss, but reversal too — all patients reported complete hair growth within a 6 - month period.
Effect
of vitamin A and
zinc supplementation on the nutriture
of children
in Northeast Thailand.
Prasad AS, Beck FW, Bao B, et al:
Zinc Supplementation Decreases Incidence
of Infections
in the Elderly: Effect
of Zinc on Generation
of Cytokines and Oxidative Stress.
Barnett JB, Dao MC, Hamer DH, et al: Effect
of Zinc Supplementation on Serum
Zinc Concentration and T Cell Proliferation
in Nursing Home Elderly: A Randomized, Double - Blind, Placebo - Controlled Trial.
In addition, this study found that zinc supplementation did not significantly reduce the levels of copper or HDL cholesterol in the bod
In addition, this study found that
zinc supplementation did not significantly reduce the levels
of copper or HDL cholesterol
in the bod
in the body.
As well, the addition
of zinc supplementation to L - thyroxine therapy
in hypothyroid animals improved wound healing (7).
In a study
of 59 post-menopausal women, the effects
of calcium
supplementation (as calcium citrate, 1000 mg elemental Ca / day) with and without the addition
of zinc (15.0 mg / day), manganese (5.0 mg / day) and copper (2.5 mg / day) on the lumbar spine was evaluated over two years.
Two other small clinical trials evaluated the effects
of supplementation with 200 mg
zinc sulfate (providing 45 mg
zinc) for 2 years
in subjects with drusen or macular degeneration.
Clinicians consider risk factors (such as inadequate caloric intake, alcoholism, and digestive diseases) and symptoms
of zinc deficiency (such as impaired growth
in infants and children) when determining the need for
zinc supplementation [2].
The effects
of zinc supplementation on diarrhea
in children with adequate
zinc status, such as most children
in the United States, are not clear.
Zinc: dietary intake and impact
of supplementation on immune function
in elderly.
Similar findings were reported
in a meta - analysis published
in 2008 and a 2007 review
of zinc supplementation for preventing and treating diarrhea [63,64].
Zinc supplementation significantly reduced visual acuity loss
in one
of the studies [76] but had no effect
in the other [77].
Another factor is if levels
of other minerals, like Calcium, are high due to
supplementation or a diet high
in dairy diet
zinc may be «outcompeted» for absorption.
The aim
of this randomized, double - blind, placebo - controlled study conducted
in France was to evaluate the effects
of zinc supplementation on
zinc status
in healthy middle - aged men.
In children diagnosed with a UTI, zinc supplementation was significantly shown to reduce frequency of urination and pain in clinical testin
In children diagnosed with a UTI,
zinc supplementation was significantly shown to reduce frequency
of urination and pain
in clinical testin
in clinical testing.
I also wonder how that works with the
zinc supplementation of 50 mg per week (which is based on the average copper intake)-- if you take your
zinc supplement earlier
in the week but don't achieve the planned copper intake, does that have negative consequences, or can it be mitigated by larger doses
of copper later
in the cycle?
Copper deficiency
in the United States is believed to be relatively rare but has been described
in the setting
of zinc supplementation, myelodysplastic syndrome, use
of parenteral nutrition and chronic tube feeding, and
in various malabsorptive syndromes, including following gastrectomy and gastric bypass surgery.
In 1997 Ochi et al5 demonstrated that patients with Tinnitus had significantly decreased
zinc levels and that
supplementation with doses
of 34 - 68 mg
of zinc for more than 2 weeks significantly improved their tinnitus.
CHAPTER 1 Indications, Screening, and Contraindications Associated with Bariatric Surgeries Obesity Trends and Consequences Criteria for Bariatric Surgery
in Adults Contraindications to Bariatric Surgery CHAPTER 2 Types and History
of Bariatric Surgery Broad Categories
of Bariatric Procedures History and Time - line
of Bariatric Surgery Procedures Restrictive - Malabsorptive Surgery: Roux - en Y Gastric Bypass Purely Restrictive Bariatric Procedures Purely Malabsorptive Procedures Experimental or Investigational Procedures CHAPTER 3 Benefits and Risks
of Bariatric Surgery Benefits
of Bariatric Surgery Complications
of Bariatric Surgery Consequences
of Surgery Which May Impact Nutritional Status CHAPTER 4 Perioperative Nutrition Recommendations for Bariatric Surgery Patients Multidisciplinary Approach Prior to Surgery Preoperative Nutrition Guidelines Postoperative Nutrition Assessment and Follow - up Diet Progression Recommendations for Adjustable Gastric Band Diet Progression Recommendations for Roux - en Y Gastric Bypass or Sleeve Gastrectomy Diet Progression Recommendations for Biliopancreatic Diversion (BPD) Vitamin and Mineral
Supplementation Exercise CHAPTER 5 The Power
of Protein: What the Nutrition Professional Should Know Overview Role
of Protein
in the Body Sources
of Protein Digestion and Absorption
of Protein Digestion Rate Upper Limits
of Protein Digestion Liver Processing and Elimination Protein Requirements
in Humans Beneficial Roles
of Protein: Muscle Protein Synthesis, Glucose and Lipid Homeostasis, Thermogenesis and Satiety Muscle Protein Synthesis and Maintenance
of Lean Body Mass Glucose and Lipid Homeostasis Thermogenesis and Satiety Protein Malnutrition Preoperative Risk
of Protein Malnutrition Postoperative Risk
of Protein Malnutrition Protein Prescription for the Bariatric Patient Treatment for Protein Malnutrition
in the Bariatric Patient The «30 gram» Protein Myth Liquid or Powder Protein Supplements The Patient's Role Conclusions CHAPTER 6 Micronutrient Deficiencies Associated with Bariatric Surgery Overview Water Soluble Vitamins Thiamin: Overview, Food Sources, Digestion and Metabolism Thiamin Deficiency: Signs and Symptoms Thiamin: Assessment and Treatment
of Deficiency Vitamin B12: Overview, Food Sources, Digestion and Metabolism Vitamin B12 Deficiency: Signs and Symptoms Vitamin B12: Assessment and Treatment
of Deficiency Folate (folic acid): Overview, Food Sources, Digestion and Metabolism Folate Deficiency: Signs and Symptoms Folate: Assessment and Treatment
of Deficiency Fat Soluble Vitamins Vitamin A: Overview, Food Sources, Digestion and Metabolism Vitamin A Deficiency: Signs and Symptoms Vitamin A: Assessment and Treatment
of Deficiency Vitamin D and Calcium: Overview, Food Sources, Digestion and Metabolism Vitamin D and Calcium Deficiency: Signs and Symptoms Vitamin D and Calcium: Assessment and Treatment
of Deficiency Minerals Iron: Overview, Food Sources, Digestion and Metabolism Iron Deficiency: Signs and Symptoms Iron: Assessment and Treatment
of Deficiency
Zinc: Overview, Food Sources, Digestion and Metabolism
Zinc Deficiency: Signs and Symptoms
Zinc: Assessment and Treatment
of Deficiency Copper: Overview, Food Sources, Digestion and Metabolism Copper Deficiency: Signs and Symptoms Copper: Assessment and Treatment
of Deficiency Selenium: Overview, Food Sources, Digestion and Metabolism Selenium Deficiency: Signs and Symptoms Selenium: Assessment and Treatment
of Deficiency Conclusions References Abbreviations and Acronyms Glossary Self Assessment Questions Answer Key to Self Assessment Questions Explanations to Self - Assessment Questions About The Author About Wolf Rinke Associates, Inc..
Effect
of zinc supplementation on the dietary intake, rate
of weight gain, and energy cost
of tissue deposition
in children recovering from severe malnutrition
Zinc affects the metabolism of thyroid hormones in children with Down's syndrome: normalization of thyroid stimulating hormone and of reversal triiodothryonine plasmic levels by dietary zinc supplementa
Zinc affects the metabolism
of thyroid hormones
in children with Down's syndrome: normalization
of thyroid stimulating hormone and
of reversal triiodothryonine plasmic levels by dietary
zinc supplementa
zinc supplementation
Enhanced DNA repair
in lymphocytes
of Down syndrome patients: the influence
of zinc nutritional
supplementation
Zinc supplementation in elderly subjects produced the restoration, at least partially,
of nutritional and thymic status with no adverse effects (Boukaiba et al. 1993).
If you are continually consuming less than 50 %
of the RDA or less than 75 %
of the RDA while also being highly active (since
zinc is lost
in sweat) then
supplementation or at least modification
of the diet to hit 100 % would be advised.
Roth, D. E., Richard, S. A., and Black, R. E.
Zinc supplementation for the prevention
of acute lower respiratory infection
in children
in developing countries: meta - analysis and meta - regression
of randomized trials.
Sazawal, S., Black, R. E., Jalla, S., Mazumdar, S., Sinha, A., and Bhan, M. K.
Zinc supplementation reduces the incidence
of acute lower respiratory infections
in infants and preschool children: a double - blind, controlled trial.
Effect
of routine
zinc supplementation on pneumonia
in children aged 6 months to 3 years: randomised controlled trial
in an urban slum.
Tielsch, J. M., Khatry, S. K., Stoltzfus, R. J., Katz, J., LeClerq, S. C., Adhikari, R., Mullany, L. C., Black, R., and Shresta, S. Effect
of daily
zinc supplementation on child mortality
in southern Nepal: a community - based, cluster randomised, placebo - controlled trial.
A community - based randomized controlled trial
of iron and
zinc supplementation in Indonesian infants: effects on growth and development.
Afkhami - Ardekani, M., Karimi, M., Mohammadi, S. M., and Nourani, F. Effect
of zinc supplementation on lipid and glucose
in type 2 diabetic patients.
Peretz, A., Neve, J., Jeghers, O., and Pelen, F.
Zinc distribution in blood components, inflammatory status, and clinical indexes of disease activity during zinc supplementation in inflammatory rheumatic disea
Zinc distribution
in blood components, inflammatory status, and clinical indexes
of disease activity during
zinc supplementation in inflammatory rheumatic disea
zinc supplementation in inflammatory rheumatic diseases.
Sur, D., Gupta, D. N., Mondal, S. K., Ghosh, S., Manna, B., Rajendran, K., and Bhattacharya, S. K. Impact
of zinc supplementation on diarrheal morbidity and growth pattern
of low birth weight infants
in kolkata, India: a randomized, double - blind, placebo - controlled, community - based study.
Effect
of zinc supplementation on incidence
of infections and hospital admissions
in sickle cell disease (SCD).
Sazawal, S., Black, R. E., Bhan, M. K., Jalla, S., Bhandari, N., Sinha, A., and Majumdar, S.
Zinc supplementation reduces the incidence
of persistent diarrhea and dysentery among low socioeconomic children
in India.