Janet R. Ninnis scite author profile

The salivary glands of adults concentrate nitrate from the plasma into saliva where it is converted to nitrite by bacterial nitrate reductases. Nitrite can play a beneficial role in adult gastrointestinal and cardiovascular physiology. When nitrite is swallowed, some of it is converted to nitric oxide (NO) in the stomach and may then exert protective effects in the gastrointestinal tract and throughout the body. It has yet to be determined either when newborn infants acquire oral nitrate reducing bacteria or what the effects of antimicrobial therapy or premature birth may be on the bacterial processing of nitrate to nitrite. We measured nitrate and nitrite levels in the saliva of adults and both preterm and term human infants in the early weeks of life. We also measured oral bacterial reductase activity in the saliva of both infants and adults, and characterized the species of nitrate reducing bacteria present. Oral bacterial conversion of nitrate to nitrite in infants was either undetectable or markedly lower than the conversion rates of adults. No measurable reductase activity was found in infants within the first two weeks of life, despite the presence of oral nitrate reducing bacteria such as Actinomyces odontolyticus, and Veillonella atypica, and Rothia mucilaginosa. We conclude that relatively little nitrite reaches the infant gastrointestinal tract due to the lack of oral bacterial nitrate reductase activity. Given the importance of the nitrate-nitrite-NO axis in adults, the lack of oral nitrate-reducing bacteria in infants may be relevant to the vulnerability of newborns to hypoxic stress and gastrointestinal tract pathologies.

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Inhaled Nitric Oxide Therapy Increases Blood Nitrite, Nitrate, and S-Nitrosohemoglobin Concentrations in Infants with Pulmonary Hypertension

Ibrahim

Ninnis

Hopper

et al. 2012

The Journal of Pediatrics

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Objective To measure the circulating concentrations of nitric oxide (NO) adducts with NO bioactivity following inhaled NO therapy in infants with pulmonary hypertension. Study design In this single center study five sequential blood samples were collected from infants with pulmonary hypertension before, during and after therapy with iNO (n=17). Samples were collected from a control group of hospitalized infants without pulmonary hypertension (n=16) and from healthy adults for comparison (n=12). Results After beginning iNO (20 ppm) whole blood nitrite increased about two-fold within two hours (P<0.01). Whole blood nitrate increased to four-fold higher than baseline during treatment with 20ppm iNO (P<0.01). S-nitrosohemoglobin (SNO-Hb) increased measurably after beginning iNO (P<0.01) whereas iron nitrosyl hemoglobin and total Hb-bound NO-species compounds did not change. Conclusion Treatment of pulmonary hypertensive infants with iNO results in increases in nitrite, nitrate, and SNO-Hb in circulating blood. We speculate that these compounds may be carriers of NO bioactivity throughout the body and account for peripheral effects of iNO in the brain, heart and other organs.

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Nitrite and Nitrate Concentrations and Metabolism in Breast Milk, Infant Formula, and Parenteral Nutrition

Jones¹,

Ninnis²,

Hopper³

et al. 2013

J Parenter Enteral Nutr

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Dietary nitrate and nitrite are sources of gastric NO, which modulates blood flow, mucus production, and microbial flora. However, the intake and importance of these anions in infants is largely unknown. Nitrate and nitrite levels were measured in breast milk of mothers of preterm and term infants, infant formulas, and parenteral nutrition. Nitrite metabolism in breast milk was measured after freeze-thawing, at different temperatures, varying oxygen tensions, and after inhibition of potential nitrite-metabolizing enzymes. Nitrite concentrations averaged 0.07 ± 0.01 μM in milk of mothers of preterm infants, less than that of term infants (0.13 ± 0.02 μM) (P < .01). Nitrate concentrations averaged 13.6 ± 3.7 μM and 12.7 ± 4.9 μM, respectively. Nitrite and nitrate concentrations in infant formulas varied from undetectable to many-fold more than breast milk. Concentrations in parenteral nutrition were equivalent to or lower than those of breast milk. Freeze-thawing decreased nitrite concentration ∼64%, falling with a half-life of 32 minutes at 37°C. The disappearance of nitrite was oxygen-dependent and prevented by ferricyanide and 3 inhibitors of lactoperoxidase. Nitrite concentrations in breast milk decrease with storage and freeze-thawing, a decline likely mediated by lactoperoxidase. Compared to adults, infants ingest relatively little nitrite and nitrate, which may be of importance in the modulation of blood flow and the bacterial flora of the infant GI tract, especially given the protective effects of swallowed nitrite.

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Evaluating the Impact of Pain Management (PM) Education on Physician Practice Patterns—A Continuing Medical Education (CME) Outcomes Study

et al. 2010

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California Assembly Bill AB487 mandates that all practicing physicians are required to obtain 12 h of Continuing Medical Education in Pain Management and End of Life Care before the year 2006 in order to renew their state license to practice medicine. In order to determine the effectiveness of this bill in influencing the practice of medicine, we conducted the first of five planned annual Pain Management seminars and utilized physician questionnaires to determine possible practice changes as a result of this seminar. Eighty-one physicians representing 17 multiple specialties of medicine enrolled in this seminar. The topics included: management of malignant and non-malignant pain, pharmacology and management of side effects of opiate and non-opiate analgesics, and adjunctive therapies including depression management and spirituality issues. Physicians were asked to respond to an immediate post-seminar questionnaire and were subsequently queried 4 months following the conference. Fifty-one out of 81 physician registrants responded to an immediate post-attendance questionnaire, and 31 responded to the 4-month follow-up questionnaire. Responses included: EarlyLateI will change/have changed my practice3428I see no need to change my practice62I will await further information71No response regarding practice change4Responses of those who changed their practices included: Increased use of known modalities for pain control21 Earlier referrals to specialists14 More attention to psychosocial aspects14 Use of new drugs/modalities of care11 This audience represents the most motivated group of practitioners electing to receive Pain Management Education long before the mandated deadline. Sixty-seven percent expressed an interest in changing their practice following this intensive educational experience. Ninety percent responding to the follow-up evaluation indicated that their practices had changed, suggesting that this seminar series is effective in altering physician practice patterns (supported by Cancer Center Support Grant CA 33572 and Sarnat Foundation).

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Use of propranolol for treatment of hemangiomas in PHACE syndrome

et al. 2011

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Janet R. Ninnis

Nitrate reductase activity of bacteria in saliva of term and preterm infants

Inhaled Nitric Oxide Therapy Increases Blood Nitrite, Nitrate, and S-Nitrosohemoglobin Concentrations in Infants with Pulmonary Hypertension

Nitrite and Nitrate Concentrations and Metabolism in Breast Milk, Infant Formula, and Parenteral Nutrition

Evaluating the Impact of Pain Management (PM) Education on Physician Practice Patterns—A Continuing Medical Education (CME) Outcomes Study

Use of propranolol for treatment of hemangiomas in PHACE syndrome

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