RESUMEN
Background: There is a shortage of clinical studies examining the efficacy of Nicotinamide Adenine Dinucleotide and Enkephalinase infusions (IV1114589NAD) in treating Substance Use Disorder (SUD). Objective: This study aims to provide evidence that IV1114589NAD infusions significantly attenuate substance craving behavior. Methods: The study cohort consisted of addicted poly-drug, mixed gender, multi-ethnic individuals resistant to standard treatment. The investigation utilized Likert-Scales to assess behavioral outcomes. Results: Using Wilcoxon signed-rank tests and sign tests, our team detected significant results by comparing baseline to post outcome scores after IV1114589NAD injections: craving scores (P=1.063E-9); anxiety (P=5.487E-7); and depression (P=1.763E-4). A significant reduction in cravings, anxiety, and depression followed a dose-dependent linear trend. Linear trend analyses showed a significant relationship between NAD infusions and decreasing scores for cravings (P=0.015), anxiety (P=0.003), and depression (P=8.74E-5). A urine analysis was conducted on a subset of 40 patients midway through the study to assess relapse; 100% of the urine samples analyzed failed to detect illicit substance use. Discussion: The opioid crisis in America has claimed close to 800,000 lives since 2004; daily deaths are estimated to stand at 127, and in 2021, over 107,000 deaths were due to overdose. There is an urgency to find safe, side-effect-free solutions. Current interventions, such as Naltrexone implants, are invasive and may interfere with dopamine homeostasis leading to an anti-reward phenomenon. Larger randomized double-blinded placebo-controlled studies are needed to elucidate further the significance of the results presented in this study. The current pilot study provides useful preliminary data regarding the effectiveness of IV1114589NAD infusions in SUD treatment. Conclusion: This pilot study provides significant evidence that NAD infusions are beneficial in the treatment of SUD. This investigation serves as a rationale to extend these findings onto future research investigating the use of NAD/NADH as a stand-alone treatment, especially in patients showing high genetic risk as measured in the Genetic Addiction Risk Severity (GARS) test. Utilizing GARS will help provide a real personalized therapeutic approach to treat Reward Deficiency Syndrome (RDS).
RESUMEN
In 2019, the US Center for Disease Control and Prevention provided vital statistics related to drug overdoses in the United State1. They concluded that in the USA the number of deaths at almost 72,000 was due to 66.6% of opioid overdoses. In fact, the rate is alarming and increasing yearly. To make 2021 even more scary is the daunting effect on increased drug usage due to COVID 19 as a pandemic, albeit the new vaccines. Specifically, in 2020, the death rate from opioid overdoses rose to 13% nationally and in some sates 30%. The common neuromodulating aspects of neurotransmission, and its disruption via chronic exposure of drugs and behavioral addictions, requires further intense research focus on developing novel strategies to combat these unwanted genetic and epigenic infractions as accomplished with heroin addiction by our group. The take home message is the plausible acceptance of the well-established evidence for hypodopaminergia, a blunted reward processing system, reduced resting state functional connectivity, genetic antecedents, anti- reward symptomatology, poor compliance with MAT, and generalized RDS. With this evidence it is conceivable that pursuit through intensive future research should involve an approach that incorporates "dopamine homeostasis". This required paradigm shift may consist of many beneficial modalities including but not limited to: exercise, pro-dopamine regulation, nutrigenomics, cognitive behavioral therapy, hedonic hot spot targets brain, rTMRS, deep brain stimulation, diet, genetic edits, genetic guided therapeutics, epigenetic repair, amongst others. It is our opinion that nutrigenomics may assist the millions of people of getting out of a" hypodopaminergic ditch" WC 250.
RESUMEN
Alcohol and other substance use disorders share comorbidity with other RDS disorders, i.e., a reduction in dopamine signaling within the reward pathway. RDS is a term that connects addictive, obsessive, compulsive, and impulsive behavioral disorders. An estimated 2 million individuals in the United States have opioid use disorder related to prescription opioids. It is estimated that the overall cost of the illegal and legally prescribed opioid crisis exceeds one trillion dollars. Opioid Replacement Therapy is the most common treatment for addictions and other RDS disorders. Even after repeated relapses, patients are repeatedly prescribed the same opioid replacement treatments. A recent JAMA report indicates that non-opioid treatments fare better than chronic opioid treatments. Research demonstrates that over 50 percent of all suicides are related to alcohol or other drug use. In addition to effective fellowship programs and spirituality acceptance, nutrigenomic therapies (e.g., KB220Z) optimize gene expression, rebalance neurotransmitters, and restore neurotransmitter functional connectivity. KB220Z was shown to increase functional connectivity across specific brain regions involved in dopaminergic function. KB220/Z significantly reduces RDS behavioral disorders and relapse in human DUI offenders. Taking a Genetic Addiction Risk Severity (GARS) test combined with a the KB220Z semi-customized nutrigenomic supplement effectively restores dopamine homeostasis (WC 199).