SGLT2 inhibitors offer unique cardio-renal benefits that can transform treatment options for heart and kidney health.
Table of Contents
Abstract
Welcome to our deep dive into one of the most significant advancements in modern medicine: Sodium-Glucose Cotransporter 2 (SGLT2) inhibitors. In this educational post, I will guide you through a practical, patient-centered approach to SGLT2 inhibitors for their profound cardiorenal benefits, framed within the integrative chiropractic and functional medicine workflows we use at Injury Medical Clinic PA (Mission Plaza Injury Medical Clinic) in El Paso, Texas. We will explore the staggering global impact of type 2 diabetes, chronic kidney disease (CKD), and heart failure, and the powerful physiological ties that bind them. I will break down the intricate pathophysiology of cardio-renal complications using clear, relatable analogies and detail the mechanism of action of SGLT2 inhibitors. We will review key findings from landmark clinical trials, current clinical guidelines, and a real-world patient case study to illustrate how this new paradigm works in practice. This journey will cover optimizing medications, the crucial role of Diabetes Self-Management Education (DSME), overcoming patient barriers to technology like Continuous Glucose Monitors (CGMs), and the power of a multidisciplinary team. You will also learn how our care integrates chiropractic, functional medicine, personal injury, and rehabilitative services under the medical direction of Dr. Maria Guadalupe Cardenas, MD, to help patients achieve safer glucose control, reduce cardiovascular risk, and protect kidney function.
My Journey Into Diabetes Care And Integrative Medicine
I am Dr. Alex Jimenez, DC, APRN, FNP-BC, CFMP, IFMCP, ATN, CCST. My clinical focus has long centered on the intersections of musculoskeletal health, metabolic physiology, and systems-based functional medicine. My path into diabetes care, like that of many clinicians, began with a powerful personal experience that sharpened my resolve to prevent suffering through early education and integrated interventions.
As a young caregiver in my family, I witnessed firsthand how subtle changes in circulation, sensation, and skin integrity could escalate into dangerous complications for a loved one with diabetes. That experience impressed upon me an enduring truth: sustained metabolic control requires more than prescriptions; it demands comprehensive, compassionate, and coordinated care that blends lifestyle, biomechanics, and medical therapeutics.
This understanding is at the core of our practice. Over time, I deepened my training in functional medicine and advanced primary care, translating research into practical protocols and building collaborative clinical pathways that reflect the realities of patient lives. Today, I want to share insights into a class of medications that perfectly aligns with this integrative philosophy: SGLT2 inhibitors.
Our Multidisciplinary Team: Internal Medicine Oversight Meets Integrative Chiropractic
At Injury Medical Clinic PA, also known as Mission Plaza Injury Medical Clinic, we have cultivated a unique multidisciplinary environment designed to provide comprehensive care. We operate a coordinated setup common in integrative and injury care clinics, where my expertise in integrative chiropractic and functional medicine is paired with robust medical direction.
A cornerstone of our practice is our collaboration with Dr. Maria Guadalupe Cardenas, MD. Dr. Cardenas is a highly respected, Board-Certified Internist with over 40 years of invaluable experience (NPI #1164426749, Texas MD License #J2933). She serves as our Medical Director and Collaborative Physician, providing essential medical oversight, risk stratification, and pharmacologic decision-making for complex cases. This partnership between a DC/FNP and an MD allows us to bridge different healing philosophies for the patient’s benefit.
Our team structure allows us to integrate seamlessly:
- Internal Medicine Oversight: Dr. Cardenas provides medical supervision, ensuring all treatments are safe, clinically appropriate, and coordinated with conventional medical standards.
- Integrative Chiropractic and Functional Medicine: I serve as the clinical lead for musculoskeletal care, functional medicine, and metabolic health, aligning biomechanical and cardiometabolic goals.
- Care Domains We Integrate:
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- Internal medicine evaluation and medication management.
- Integrative chiropractic for spinal health, pain modulation, autonomic balance, and movement efficiency.
- Functional medicine for nutrition, gut health, inflammation, and lifestyle change.
- Personal injury care and rehabilitation to resolve biomechanical barriers to exercise adherence.
- Health education and digital care pathways to sustain engagement and outcomes.
This collaborative model ensures that a patient with a complex condition such as type 2 diabetes receives care that addresses not only their metabolic health but also their structural integrity, nutritional status, and overall well-being. This pairing ensures safety, continuity, and effectiveness—especially when we’re implementing modern cardiometabolic therapies such as SGLT2 inhibitors.
The Overlapping Crises of Diabetes, Heart Failure, and Kidney Disease
Before we explore the specifics of SGLT2 inhibitors, it’s crucial to understand the scale of the health challenges we are facing. Data from 1990 to 2017 painted a stark picture, and these numbers have only continued to climb.
- Chronic Kidney Disease (CKD): Globally, there were an estimated 5 million cases, with a 29% increase in prevalence during that period. In the United States alone, the annual cost impact was a staggering $48 billion.
- Heart Failure: The global prevalence stood at 64 million people, with a documented 36% increase. The worldwide cost impact was even more immense, at $346 billion per year.
To truly grasp the human cost, researchers use a metric called the Disability-Adjusted Life Year (DALY). One DALY represents the loss of one year of full, healthy life. The numbers are sobering:
- CKD was responsible for the loss of 35.8 million years of healthy life.
- Heart failure, broken down by cause, was even more devastating:
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- Ischemic Heart Disease: 182 million DALYs
- Hypertensive Heart Disease: 5 million DALYs
- Cardiomyopathy and Myocarditis: 14 million DALYs
These are not just statistics; they represent millions of lives cut short and years lost to chronic illness.
The Ties That Bind: A Deadly Trio
Now, let’s bring diabetes back into the picture. Diabetes, CKD, and heart failure are what I call “the ties that bind.” These three conditions are deeply intertwined, creating a vicious cycle of disease progression. During my training as a nurse practitioner, this connection became vividly clear. Nearly every time I entered the diagnosis code for type 2 diabetes, it was inevitably followed by codes for hypertension, hyperlipidemia, CKD, or heart failure.
As of 2020, an estimated 38.4 million adults in the United States had type 2 diabetes. Of those, 20% to 40% also have associated CKD. This means between 7 and 15 million people are on a path where progression to heart failure or other major cardiovascular events is almost inevitable. This is why we refer to them as the cardio-renal complications of diabetes. This intersection is our greatest opportunity for optimizing treatment.
A Simple Analogy for a Complex Problem: How High Sugar Harms the Body
Understanding the pathophysiology—the “how” and “why” behind this damage—is the foundation for effective treatment. I often use a simple analogy to explain this complex process to my patients. First, I ask them to think of a very sweet liquid, such as honey or syrup.
“How would you describe its consistency?” I ask. They always say it’s gooey, sticky, and thick.
“Exactly,” I say. “It doesn’t flow easily; it oozes. Now, imagine that same thick, oozing liquid is your blood. How would your heart handle pumping that sticky fluid through your body?” They quickly realize the heart would have to pump extra hard to circulate it.
Next, I go back to the sweetness. “Imagine holding a hard candy in your mouth, tucked against the inside of your cheek, for an hour. What would that spot feel like afterward?” People describe it as feeling rough or even hard. That’s because sugar is incredibly inflammatory; it hardens the tissues it touches. This inflammatory effect occurs wherever the blood travels, hardening blood vessels (atherosclerosis) and damaging the delicate filtering units of the kidneys.
With this simple analogy, we can understand the complex cascade of cardio-renal damage:
- Increased Blood Volume and Heart Workload: High blood sugar pulls water from your cells into the bloodstream (osmotic diuresis). This increases your total blood volume, forcing the heart to work harder and raising blood pressure.
- Impaired Perfusion and RAAS Activation: Paradoxically, this high pressure can lead to poor tissue perfusion (blood flow). When the kidneys sense this reduced perfusion, they activate the Renin-Angiotensin-Aldosterone System (RAAS). Chronic RAAS activation is harmful, leading to vasoconstriction and structural changes in the heart, like fibrosis (scarring).
- Kidney Damage: The kidneys are highly sensitive to changes in perfusion. In a person with diabetes, they develop a “numbed” threshold for sugar and paradoxically reabsorb more sugar, keeping blood levels high. This faulty glucose and sodium reabsorption leads to high pressure within the glomeruli (the kidney’s filters), promoting sodium and water retention and worsening both cardiovascular and renal outcomes.
The connections are real and devastating. The heart is under attack from high sugar, and the failing kidneys add to the burden by retaining fluid. It becomes a waiting game of which organ will fail first.
The Solution: How SGLT2 Inhibitors Rebalance The System
Now, we are ready to discuss the star of our show: Sodium-Glucose Cotransporter 2 (SGLT2) inhibitors. Remember how the diabetic kidney wrongly reabsorbs sugar? The SGLT2 protein is the transporter responsible for this. SGLT2 inhibitors work by blocking this protein. Instead of reabsorbing glucose, the kidneys excrete it in the urine.
To understand why these medications are transformative, we need to unpack the physiology.
- The proximal tubule of the kidney reabsorbs most filtered glucose via SGLT2, which co-transports sodium. When SGLT2 is inhibited:
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- Less glucose is reabsorbed; more is excreted (glycosuria), lowering plasma glucose without increasing insulin levels.
- Less sodium is reclaimed, enhancing distal delivery of sodium to the macula densa, which triggers tubuloglomerular feedback to constrict the afferent arteriole and reduce intraglomerular pressure. This helps protect delicate glomerular structures from damage caused by hyperfiltration (Cherney et al., 2014; Vallon & Thomson, 2017).
- The osmotic diuresis and natriuresis (excretion of water and sodium) have profound hemodynamic effects:
-
- They reduce interstitial fluid and venous return, easing cardiac preload (the stretch on the heart before it contracts).
- They mildly lower systemic vascular resistance, easing afterload (the force the heart must pump against).
- These shifts benefit patients with heart failure, improving symptoms and reducing hospitalizations (Packer et al., 2020).
- There are additional metabolic and inflammatory impacts:
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- Caloric loss through glycosuria encourages modest weight reduction.
- Shifts in substrate utilization may favor ketone use by the heart, potentially improving myocardial efficiency (Ferrannini et al., 2016).
- Reduced uric acid levels and improved endothelial function contribute to vascular health (Liu et al., 2020).
I explain this to patients by comparing the kidney’s filtering membrane to a mesh. High pressure stretches this mesh, making the holes larger and allowing large molecules, such as proteins, to leak into the urine (microalbuminuria). By lowering this internal pressure, SGLT2 inhibitors help the mesh return to its normal size, reducing protein leakage. This is a powerful teaching point: this medication doesn’t just lower blood sugar; it actively protects your kidneys.
Cardiometabolic Risk *Causes & Effects*- Video
Landmark Clinical Trials and Current Guidelines
The widespread adoption of SGLT2 inhibitors is backed by robust data from major clinical trials demonstrating powerful cardiovascular and renal protection.
Cardiovascular and Renal Benefit Trials
Key trials have consistently shown remarkable risk reductions in major adverse cardiovascular events (MACE), heart failure hospitalizations, and progression of kidney disease.
| Trial | Medication | Primary Benefit Demonstrated |
| EMPA-REG OUTCOME | Empagliflozin (Jardiance) | 38% reduction in cardiovascular death. |
| CREDENCE | Canagliflozin (Invokana) | 30% reduction in the primary renal outcome. |
| DAPA-CKD | Dapagliflozin (Farxiga) | 39% reduction in the primary renal outcome. |
| EMPA-KIDNEY | Empagliflozin (Jardiance) | 28% reduction in progression of kidney disease or CV death. |
| This powerful evidence has led medical bodies such as the American Diabetes Association (ADA) to update their guidelines. The ADA Standards of Care now recommend an SGLT2 inhibitor for adults with type 2 diabetes and established heart failure or CKD. Crucially, these medications should be used irrespective of the patient’s A1C level. This is a major paradigm shift: we are no longer just treating a number; we are treating the whole person to protect the organ. |
A Case Study in Modern Diabetes Management: Meet R.B.
To truly understand this new approach, let’s walk through the journey of one of my patients, whom we’ll call R.B. When he first came to our clinic, he was on multiple medications, but his A1C was 10.2%, and his kidney function was declining, with an eGFR of 43. He was experiencing frightening episodes of nocturnal hypoglycemia (low blood sugar), causing him to preemptively overeat during the day and leading to a vicious cycle of high and low readings. He was also adamant about not wanting a Continuous Glucose Monitor (CGM) due to a fear of needles.
R.B. landed squarely at the intersection of Type 2 Diabetes, Chronic Kidney Disease, and Cardiovascular Disease, making him a perfect candidate for an optimized treatment plan.
The Treatment Plan: A Phased Approach
- Building a Foundation of Understanding: Our initial visit focused on Diabetes Self-Management Education (DSME). We addressed his fear of hypoglycemia by stopping a problematic medication (glipizide) and reducing his long-acting insulin. We focused on nutritional substitutions rather than restrictions and introduced the concept of mealtime insulin. Most importantly, I addressed his fear of CGM by showing him a demo unit and explaining that the sensor is a tiny, flexible filament, not a needle. This ten-minute conversation was transformative.
- Two Weeks Later – Progress and a New Medication: With his blood sugars stabilizing and nocturnal lows resolved, we confirmed his body was still producing its own insulin (via a C-peptide test). It was now safe to add dapagliflozin (Farxiga) 5 mg daily, an SGLT2 inhibitor, to provide kidney and heart protection.
- Three Months – Dramatic Improvements: R.B’s A1C dropped two full points to 8.2%, and his eGFR improved to 53. His kidney function was already showing signs of recovery! We then switched another of his medications to a weekly GLP-1 receptor agonist (semaglutide) to better control post-meal spikes.
- Seven Months – A New Baseline: Seven months after his initial visit, R.B.’s A1C was down to 2%, his eGFR was back to its baseline of 55, and he no longer needed mealtime insulin. We made sure to keep the CGM as a crucial monitoring tool. Explaining the “why” behind his success was key to his empowerment.
How We Integrate SGLT2 Inhibitors In Practice: Safety and Synergy
Under Dr. Cardenas’s internal medicine oversight, we implement SGLT2 inhibitors as part of individualized care plans grounded in a disciplined approach.
- Baseline Evaluation: We assess renal function (eGFR, urine albumin-to-creatinine ratio), cardiovascular status, infection risk, and review current medications like diuretics.
- Initiation and Patient Education: We start at guideline-supported doses appropriate for the eGFR. Crucially, we counsel patients on hydration, sick-day rules, genital hygiene, and recognizing rare side effects like euglycemic ketoacidosis. For example, we advise patients to temporarily hold the medication during acute illness when they are not eating or drinking normally.
- Monitoring: We recheck renal function and electrolytes within 2–4 weeks and monitor A1C, blood pressure, and weight.
- Important Considerations: We exercise caution in patients with low eGFR, a history of recurrent genital infections, or suspected insulin deficiency. Combining a ketogenic diet with an SGLT2 inhibitor is also a dangerous mix that significantly increases the risk of euglycemic DKA.
Integrative Chiropractic Care: Musculoskeletal Health As A Metabolic Lever
The musculoskeletal system is not a passive participant in diabetes care—it is a metabolic engine. When pain or joint restriction limits activity, glycemic control suffers. This is where our integrative model truly shines.
- How Chiropractic Care Fits:
-
- Spinal and extremity adjustments improve joint mobility and reduce pain, normalizing nerve signals to the central nervous system that modulate autonomic balance. Improved parasympathetic tone can lower stress-mediated glucose spikes.
- Neuromuscular re-education enhances gait efficiency, thereby supporting daily physical activity and improving insulin sensitivity via GLUT4 translocation in skeletal muscle.
- Soft tissue mobilization reduces local inflammation and improves microcirculation, both of which are crucial for healing and exercise tolerance.
- Posture and breathing mechanics influence diaphragmatic motion and venous return, indirectly supporting cardiovascular efficiency.
- Functional Medicine Synergy: We pair musculoskeletal work with anti-inflammatory nutrition, glycemic-load control, and stress-resilience protocols to reduce systemic drivers of insulin resistance. Gut health strategies support microbiome diversity that impacts GLP-1 secretion and metabolic flexibility (Rossi et al., 2021).
- Rehabilitation and Personal Injury Care: For a patient like R.B., chronic inflammation can worsen musculoskeletal pain, creating a barrier to exercise. Our rehab plans use graded loading and functional strength work to restore capacity, always aligning with diabetic foot care and neuropathy precautions.
This is the essence of our practice: we see the patient as a whole system. By addressing structural and functional aspects alongside metabolic factors, we create a synergistic effect that enhances the outcomes of the medical treatment plan prescribed under Dr. Cardenas’s guidance.
Clinical Observations From Our Practice
Drawing from my ongoing clinical work, including insights shared on WellnessDoctorRx and professional updates on LinkedIn, several themes emerge:
- Patients with early CKD initiating an SGLT2 inhibitor often report improved energy and reduced edema within weeks, enabling better participation in rehabilitation.
- When we synchronize chiropractic care with medication initiation, patients experience smoother transitions and fewer complaints of hypotension.
- Integrating breathing mechanics and thoracic mobility appears to improve exercise tolerance in heart-failure-predisposed individuals.
- Focused lower extremity kinetic chain work—ankle dorsiflexion, hip extension, and foot intrinsic strengthening—improves gait mechanics, crucial for neuropathy risk mitigation.
- Patients educated on sick-day rules and hydration maintain therapy continuity with fewer interruptions.
Conclusion: Empowering Patients Through Integrated Cardiorenal And Musculoskeletal Care
SGLT2 inhibitors have reshaped the landscape of diabetes, heart failure, and kidney disease care. In our practice, their benefits are magnified through integrative chiropractic, functional medicine, and rehabilitative strategies, all under the steady guidance of Dr. Maria Guadalupe Cardenas, MD, with expertise in internal medicine.
R.B.’s journey offers profound lessons: stop fixating on A1C alone, take the extra five minutes to understand patient barriers, and embrace a holistic model of care that incorporates cardio-renal risk reduction, psychosocial support, and lifestyle optimization. By unifying physiology, biomechanics, and behavior, we help patients move from risk to resilience. For patients and providers alike, the message is simple: when we align medical therapy with movement, nutrition, and education, we unlock durable outcomes and restore confidence in daily life.
References
- American Diabetes Association. (2023). 1. Improving Care and Promoting Health in Populations: Standards of Care in Diabetes—2023. Diabetes Care, 46(Supplement_1), S10–S18.
- American Diabetes Association. (2024). Standards of Medical Care in Diabetes—2024. Diabetes Care.
- Cannon, C. P., et al. (2020). Cardiovascular Outcomes with Ertugliflozin in Type 2 Diabetes. New England Journal of Medicine, 383(15), 1425–1435.
- Cherney, D. Z. I., et al. (2014). Renal hemodynamic effects of SGLT2 inhibition in diabetes. Circulation.
- Ferrannini, E., et al. (2016). Mechanisms of action of SGLT2 inhibitors and metabolic effects. Diabetologia.
- Heerspink, H. J. L., et al. (2020). Dapagliflozin in Patients with Chronic Kidney Disease. New England Journal of Medicine, 383(15), 1436–1446.
- (2022). KDIGO 2022 Clinical Practice Guideline for Diabetes Management in CKD.
- Liu, X., et al. (2020). Uric acid and endothelial effects of SGLT2 inhibitors. Cardiovascular Diabetology.
- McCaffery, M., et al. (2017). Pain and autonomic modulation: Implications for chiropractic care. Journal of Manipulative and Physiological Therapeutics.
- McMurray, J. J. V., et al. (2019). SGLT2 inhibitors in heart failure outcomes: DAPA-HF. New England Journal of Medicine.
- Packer, M., et al. (2020). EMPEROR-Reduced: Empagliflozin in heart failure with reduced ejection fraction. New England Journal of Medicine.
- Perkovic, V., et al. (2019). Canagliflozin and Renal Outcomes in Type 2 Diabetes and Nephropathy. New England Journal of Medicine, 380(24), 2295–2306.
- Powers, M. A., et al. (2020). Diabetes self-management education and support in type 2 diabetes. Diabetes Care.
- Rossi, F., et al. (2021). Gut microbiota and GLP-1 modulation in metabolic disease. Nutrients.
- Ruegsegger, G. N., & Booth, F. W. (2018). Health benefits of exercise-mediated GLUT4 translocation. Comprehensive Physiology.
- The EMPA-KIDNEY Collaborative Group. (2022). Empagliflozin in Patients with Chronic Kidney Disease. New England Journal of Medicine, 388(2), 117-127.
- Vallon, V., & Thomson, S. C. (2017). Renal physiology of SGLT2 inhibitors and tubuloglomerular feedback. Kidney International.
- Zelniker, T. A., et al. (2019). SGLT2 inhibitors for prevention of HF and renal outcomes: Meta-analysis. Lancet.
- Zinman, B., et al. (2015). Empagliflozin, Cardiovascular Outcomes, and Mortality in Type 2 Diabetes. New England Journal of Medicine, 373(22), 2117–2128.
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Welcome to El Paso's Premier Wellness and Injury Care Clinic & Wellness Blog, where Dr. Alex Jimenez, DC, FNP-C, a board-certified Family Practice Nurse Practitioner (FNP-BC) and Chiropractor (DC), presents insights on how our team is dedicated to holistic healing and personalized care. Our practice aligns with evidence-based treatment protocols inspired by integrative medicine principles, similar to those found on this site and our family practice-based chiromed.com site, focusing on restoring health naturally for patients of all ages.
Our areas of chiropractic practice include Wellness & Nutrition, Chronic Pain, Personal Injury, Auto Accident Care, Work Injuries, Back Injury, Low Back Pain, Neck Pain, Migraine Headaches, Sports Injuries, Severe Sciatica, Scoliosis, Complex Herniated Discs, Fibromyalgia, Chronic Pain, Complex Injuries, Stress Management, Functional Medicine Treatments, and in-scope care protocols.
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We understand that we cover matters that require an additional explanation of how they may assist in a particular care plan or treatment protocol; therefore, to discuss the subject matter above further, please feel free to ask Dr. Alex Jimenez, DC, APRN, FNP-BC, or contact us at 915-850-0900.
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Dr. Alex Jimenez DC, MSACP, APRN, FNP-BC*, CCST, IFMCP, CFMP, ATN
email: [email protected]
Licensed as a Doctor of Chiropractic (DC) in Texas & New Mexico*
Texas DC License # TX5807
New Mexico DC License # NM-DC2182
Licensed as a Registered Nurse (RN*) in Texas & Multistate
Texas RN License # 1191402
ANCC FNP-BC: Board Certified Nurse Practitioner*
Compact Status: Multi-State License: Authorized to Practice in 40 States*
Graduate with Honors: ICHS: MSN-FNP (Family Nurse Practitioner Program)
Degree Granted. Master's in Family Practice MSN Diploma (Cum Laude)
Dr. Alex Jimenez, DC, APRN, FNP-BC*, CFMP, IFMCP, ATN, CCST
(Board Certified: Family Practice Nurse Practitioner—Multistate)*
(Licensed Nurse Practitioner & Chiropractor - Multistate)*
Clinical Director
Digital Business Card
Dr. Maria Cardenas, MD
(Board Certified: Internal Medicine)
(Licensed Medical Doctor)
Medical Director, Clinical Director & Collaborative Physician
NPI # 1164426749
MD License #: J2933
Licenses and Board Certifications:
MD: Medical Doctor
DC: Doctor of Chiropractic
APRNP: Advanced Practice Registered Nurse
FNP-BC: Family Practice Specialization (Multi-State Board Certified)
RN: Registered Nurse (Multi-State Compact License)
CFMP: Certified Functional Medicine Provider
MSN-FNP: Master of Science in Family Practice Medicine
MSACP: Master of Science in Advanced Clinical Practice
IFMCP: Institute of Functional Medicine
CCST: Certified Chiropractic Spinal Trauma
ATN: Advanced Translational Neutrogenomics
Memberships & Associations:
TCA: Texas Chiropractic Association: Member ID: 104311
AANP: American Association of Nurse Practitioners: Member ID: 2198960
ANA: American Nurse Association: Member ID: 06458222 (District TX01)
TNA: Texas Nurse Association: Member ID: 06458222
NPI: 1205907805
| Primary Taxonomy | Selected Taxonomy | State | License Number |
|---|---|---|---|
| No | 111N00000X - Chiropractor | NM | DC2182 |
| Yes | 111N00000X - Chiropractor | TX | DC5807 |
| Yes | 363LF0000X - Nurse Practitioner - Family | TX | 1191402 |
| Yes | 363LF0000X - Nurse Practitioner - Family | FL | 11043890 |
| Yes | 363LF0000X - Nurse Practitioner - Family | CO | C-APN.0105610-C-NP |
| Yes | 363LF0000X - Nurse Practitioner - Family | NY | N25929 |
Dr. Alex Jimenez, DC, APRN, FNP-BC*, CFMP, IFMCP, ATN, CCST
(Board Certified: Family Practice Nurse Practitioner—Multistate)*
(Licensed Nurse Practitioner & Chiropractor - Multistate)*
Clinical Director
Digital Business Card
Dr. Maria Cardenas, MD
(Board Certified: Internal Medicine)*
(Licensed Medical Doctor)*
Medical Director, Clinical Director & Collaborative Physician
NPI # 1164426749
MD License #: J2933
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